Your search keyword '"G. J. Feldman"' showing total 269 results

1. Adjusting neutrino interaction models and evaluating uncertainties using NOvA near detector data

Author

M. A. Acero, P. Adamson, G. Agam, L. Aliaga, T. Alion, V. Allakhverdian, N. Anfimov, A. Antoshkin, L. Asquith, A. Aurisano, A. Back, C. Backhouse, M. Baird, N. Balashov, P. Baldi, B. A. Bambah, S. Bashar, K. Bays, S. Bending, R. Bernstein, V. Bhatnagar, B. Bhuyan, J. Bian, J. Blair, A. C. Booth, P. Bour, R. Bowles, C. Bromberg, N. Buchanan, A. Butkevich, S. Calvez, T. J. Carroll, E. Catano-Mur, S. Childress, B. C. Choudhary, T. E. Coan, M. Colo, L. Corwin, L. Cremonesi, G. S. Davies, P. F. Derwent, P. Ding, Z. Djurcic, D. Doyle, E. C. Dukes, P. Dung, H. Duyang, S. Edayath, R. Ehrlich, M. Elkins, G. J. Feldman, P. Filip, W. Flanagan, J. Franc, M. J. Frank, H. R. Gallagher, R. Gandrajula, F. Gao, S. Germani, A. Giri, R. A. Gomes, M. C. Goodman, V. Grichine, M. Groh, R. Group, B. Guo, A. Habig, F. Hakl, J. Hartnell, R. Hatcher, A. Hatzikoutelis, K. Heller, J. Hewes, A. Himmel, A. Holin, B. Howard, J. Huang, J. Hylen, F. Jediny, C. Johnson, M. Judah, I. Kakorin, D. Kalra, D. M. Kaplan, R. Keloth, O. Klimov, L. W. Koerner, L. Kolupaeva, S. Kotelnikov, Ch. Kullenberg, A. Kumar, C. D. Kuruppu, V. Kus, T. Lackey, K. Lang, L. Li, S. Lin, M. Lokajicek, S. Luchuk, K. Maan, S. Magill, W. A. Mann, M. L. Marshak, M. Martinez-Casales, V. Matveev, B. Mayes, D. P. Méndez, M. D. Messier, H. Meyer, T. Miao, W. H. Miller, S. R. Mishra, A. Mislivec, R. Mohanta, A. Moren, A. Morozova, L. Mualem, M. Muether, S. Mufson, K. Mulder, R. Murphy, J. Musser, D. Naples, N. Nayak, J. K. Nelson, R. Nichol, G. Nikseresht, E. Niner, A. Norman, A. Norrick, T. Nosek, A. Olshevskiy, T. Olson, J. Paley, R. B. Patterson, G. Pawloski, O. Petrova, R. Petti, R. K. Plunkett, A. Rafique, F. Psihas, A. Radovic, V. Raj, B. Ramson, B. Rebel, P. Rojas, V. Ryabov, O. Samoylov, M. C. Sanchez, S. Sánchez Falero, I. S. Seong, P. Shanahan, A. Sheshukov, P. Singh, V. Singh, E. Smith, J. Smolik, P. Snopok, N. Solomey, A. Sousa, K. Soustruznik, M. Strait, L. Suter, A. Sutton, C. Sweeney, R. L. Talaga, B. Tapia Oregui, P. Tas, R. B. Thayyullathil, J. Thomas, E. Tiras, D. Torbunov, J. Tripathi, Y. Torun, J. Urheim, P. Vahle, Z. Vallari, J. Vasel, P. Vokac, T. Vrba, M. Wallbank, T. K. Warburton, M. Wetstein, D. Whittington, S. G. Wojcicki, J. Wolcott, A. Yallappa Dombara, K. Yonehara, S. Yu, Y. Yu, S. Zadorozhnyy, J. Zalesak, Y. Zhang, and R. Zwaska

Subjects

Astrophysics, QB460-466, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798

Abstract

Abstract The two-detector design of the NOvA neutrino oscillation experiment, in which two functionally identical detectors are exposed to an intense neutrino beam, aids in canceling leading order effects of cross-section uncertainties. However, limited knowledge of neutrino interaction cross sections still gives rise to some of the largest systematic uncertainties in current oscillation measurements. We show contemporary models of neutrino interactions to be discrepant with data from NOvA, consistent with discrepancies seen in other experiments. Adjustments to neutrino interaction models in GENIE are presented, creating an effective model that improves agreement with our data. We also describe systematic uncertainties on these models, including uncertainties on multi-nucleon interactions from a newly developed procedure using NOvA near detector data.

Published

2020

2. Long-Baseline Neutrino Oscillation Experiments

Author

G. J. Feldman, J. Hartnell, and T. Kobayashi

Subjects

Physics, QC1-999

Abstract

A review of accelerator long-baseline neutrino oscillation experiments is provided, including all experiments performed to date and the projected sensitivity of those currently in progress. Accelerator experiments have played a crucial role in the confirmation of the neutrino oscillation phenomenon and in precision measurements of the parameters. With a fixed baseline and detectors providing good energy resolution, precise measurements of the ratio of distance/energy (L/E) on the scale of individual events have been made and the expected oscillatory pattern resolved. Evidence for electron neutrino appearance has recently been obtained, opening a door for determining the CP violating phase as well as resolving the mass hierarchy and the octant of θ23; some of the last unknown parameters of the standard model extended to include neutrino mass.

Published

2013

3. Seasonal variation of multiple-muon cosmic ray air showers observed in the NOvA detector on the surface

Author

Ch. Kullenberg, J. K. Nelson, A. C. Booth, J. Franc, S. Calvez, V. Matveev, A. Back, R. Petti, Jordan Ott, I. Kakorin, A. Norman, Maury Goodman, L. Cremonesi, P. Ding, W. Mu, Petr Vokac, Jeremy Wolcott, N. Solomey, V. Bhatnagar, Yue Zhang, T. Miao, B. Ramson, A. Rafique, C. Kuruppu, M. Kubu, Gregory J Pawloski, J. Smolik, D. Naples, S. C. Tognini, Stanley G. Wojcicki, T. Olson, F. Hakl, L. Asquith, F. Gao, C. Sweeney, Gavin Davies, R. Keloth, R. Zwaska, M. A. Acero, Pierre Baldi, Andrew J. Sutton, J. Hartnell, P. Lasorak, P. Filip, R. Bowles, T. E. Coan, Milos Lokajicek, Y. Yu, Z. Djurcic, Nikolay Anfimov, O. Samoylov, A. Antoshkin, S. R. Mishra, A. Mislivec, F. Jediny, V. Ryabov, E. Arrieta-Diaz, B. Mayes, A. Sousa, Marvin L Marshak, Juergen Thomas, O.L. Klimov, A. Giri, L. Aliaga, S. Magill, S. Swain, M. Martinez-Casales, D. D. Phan, A. Butkevich, T. Vrba, J. Hewes, B. Jargowsky, B. C. Choudhary, M. Muether, C. Bromberg, B. Guo, S. Bashar, Ken Heller, P. F. Derwent, Cari L. Johnson, R. Nichol, K. Yonehara, Jianbei Liu, D. Doyle, J. Blair, W. A. Mann, R. Hatcher, R. Ehrlich, A. Aurisano, Matthew L Strait, E. C. Dukes, M. Wallbank, J. C.C. Porter, B. A. Bambah, M. Judah, B. Bhuyan, M. C. Sanchez, J. M. Paley, T. Thakore, W. Wu, G. J. Feldman, A. Lister, H. Duyang, O. Petrova, Ajay Kumar, M. Baird, J. Tripathi, D. Whittington, H. Meyer, T. Nosek, J. Zalesak, K. Bays, M. Colo, P. Rojas, A. Sheshukov, M. Dolce, R. Mohanta, E. Smith, A. Hall, D. Kalra, V. Singh, Reddy Pratap Gandrajula, Alec Habig, S. Edayath, M. Wetstein, R. Kralik, R. Bernstein, P. Snopok, H. R. Gallagher, Yong Xiao, A. Moren, R. Plunkett, Vlastimil Kus, Z. Vallari, A. Himmel, M. Rajaoalisoa, L. Mualem, E. Catano-Mur, A. Norrick, K. Soustruznik, J. Vasel, S. Zadorozhnyy, L. Kolupaeva, V. Grichine, M. Elkins, T. J. Carroll, Alexander Olshevskiy, P. Shanahan, J. Jarosz, L. Suter, N. Balashov, S. Yu, M. Manrique Plata, Anna L Morozova, E. Niner, Karol Lang, H. Oh, M. J. Frank, K. Mulder, T. Lackey, L. W. Koerner, R. B. Patterson, R. B. Thayyullathil, S. Kotelnikov, P. Vahle, Warner A. Miller, J. Lesmeister, V. Raj, A. Christensen, T. K. Warburton, D. A. Wickremasinghe, A. Yallappa Dombara, N. Buchanan, S. Sánchez Falero, D. Dueñas Tonguino, B. Rebel, E. Tiras, R. A. Gomes, Petr Tas, D. M. Kaplan, B. Tapia Oregui, N. Nayak, Jian-Guo Bian, M. Groh, A. Holin, A. Kalitkina, J. Urheim, J. Trokan-Tenorio, Simon Lin, P. Singh, P. Adamson, E. Ewart, C. Backhouse, H. Hausner, M. D. Messier, and Y. Torun

Subjects

Physics, High Energy Physics - Experiment (hep-ex), Muon, Detector, FOS: Physical sciences, Cosmic ray, Astrophysics, Nova (laser), Effective temperature, Surface pressure, Atmospheric temperature, Zenith, High Energy Physics - Experiment

Abstract

We report the rate of cosmic ray air showers with multiplicities exceeding 15 muon tracks recorded in the NOvA Far Detector between May 2016 and May 2018. The detector is located on the surface under an overburden of 3.6 meters water equivalent. We observe a seasonal dependence in the rate of multiple-muon showers, which varies in magnitude with multiplicity and zenith angle. During this period, the effective atmospheric temperature and surface pressure ranged between 210 K and 230 K and 940 mbar and 990 mbar, respectively; the shower rates are anticorrelated with the variation in the effective temperature. The variations are about 30% larger for the highest multiplicities than the lowest multiplicities and 20% larger for showers near the horizon than vertical showers.

Published

2021

4. Search for Active-Sterile Antineutrino Mixing Using Neutral-Current Interactions with the NOvA Experiment

Author

M A, Acero, P, Adamson, L, Aliaga, N, Anfimov, A, Antoshkin, E, Arrieta-Diaz, L, Asquith, A, Aurisano, A, Back, C, Backhouse, M, Baird, N, Balashov, P, Baldi, B A, Bambah, S, Bashar, K, Bays, R, Bernstein, V, Bhatnagar, B, Bhuyan, J, Bian, J, Blair, A C, Booth, R, Bowles, C, Bromberg, N, Buchanan, A, Butkevich, S, Calvez, T J, Carroll, E, Catano-Mur, B C, Choudhary, A, Christensen, T E, Coan, M, Colo, L, Cremonesi, G S, Davies, P F, Derwent, P, Ding, Z, Djurcic, M, Dolce, D, Doyle, D, Dueñas Tonguino, E C, Dukes, H, Duyang, S, Edayath, R, Ehrlich, M, Elkins, E, Ewart, G J, Feldman, P, Filip, J, Franc, M J, Frank, H R, Gallagher, R, Gandrajula, F, Gao, A, Giri, R A, Gomes, M C, Goodman, V, Grichine, M, Groh, R, Group, B, Guo, A, Habig, F, Hakl, A, Hall, J, Hartnell, R, Hatcher, H, Hausner, K, Heller, J, Hewes, A, Himmel, A, Holin, J, Huang, B, Jargowsky, J, Jarosz, F, Jediny, C, Johnson, M, Judah, I, Kakorin, D, Kalra, A, Kalitkina, D M, Kaplan, R, Keloth, O, Klimov, L W, Koerner, L, Kolupaeva, S, Kotelnikov, R, Kralik, Ch, Kullenberg, M, Kubu, A, Kumar, C D, Kuruppu, V, Kus, T, Lackey, P, Lasorak, K, Lang, J, Lesmeister, S, Lin, A, Lister, J, Liu, M, Lokajicek, S, Magill, M, Manrique Plata, W A, Mann, M L, Marshak, M, Martinez-Casales, V, Matveev, B, Mayes, D P, Méndez, M D, Messier, H, Meyer, T, Miao, W H, Miller, S R, Mishra, A, Mislivec, R, Mohanta, A, Moren, A, Morozova, W, Mu, L, Mualem, M, Muether, K, Mulder, D, Naples, N, Nayak, J K, Nelson, R, Nichol, E, Niner, A, Norman, A, Norrick, T, Nosek, H, Oh, A, Olshevskiy, T, Olson, J, Ott, J, Paley, R B, Patterson, G, Pawloski, O, Petrova, R, Petti, D D, Phan, R K, Plunkett, J C C, Porter, A, Rafique, V, Raj, M, Rajaoalisoa, B, Ramson, B, Rebel, P, Rojas, V, Ryabov, O, Samoylov, M C, Sanchez, S, Sánchez Falero, P, Shanahan, A, Sheshukov, P, Singh, V, Singh, E, Smith, J, Smolik, P, Snopok, N, Solomey, A, Sousa, K, Soustruznik, M, Strait, L, Suter, A, Sutton, S, Swain, C, Sweeney, B, Tapia Oregui, P, Tas, T, Thakore, R B, Thayyullathil, J, Thomas, E, Tiras, J, Tripathi, J, Trokan-Tenorio, A, Tsaris, Y, Torun, J, Urheim, P, Vahle, Z, Vallari, J, Vasel, P, Vokac, T, Vrba, M, Wallbank, T K, Warburton, M, Wetstein, D, Whittington, D A, Wickremasinghe, S G, Wojcicki, J, Wolcott, W, Wu, Y, Xiao, A, Yallappa Dombara, K, Yonehara, S, Yu, Y, Yu, S, Zadorozhnyy, J, Zalesak, Y, Zhang, and R, Zwaska

Subjects

Physics, Particle physics, Neutral current, Oscillation, FOS: Physical sciences, General Physics and Astronomy, Nova (laser), NuMI, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), High Energy Physics::Experiment, Fermilab, Beam (structure), Mixing (physics), Bar (unit)

Abstract

This Letter reports results from the first long-baseline search for sterile antineutrinos mixing in an accelerator-based antineutrino-dominated beam. The rate of neutral-current interactions in the two NOvA detectors, at distances of 1 km and 810 km from the beam source, is analyzed using an exposure of $12.51\times10^{20}$ protons-on-target from the NuMI beam at Fermilab running in antineutrino mode. A total of $121$ of neutral-current candidates are observed at the Far Detector, compared to a prediction of $122\pm11$(stat.)$\pm15$(syst.) assuming mixing between three active flavors. No evidence for $\bar{\nu}_{\mu}\rightarrow\bar{\nu}_{s}$ oscillation is observed. Interpreting this result within a 3+1 model, constraints are placed on the mixing angles ${\theta}_{24} < 25^{\circ}$ and ${\theta}_{34} < 32^{\circ}$ at the 90% C.L. for $0.05$eV$^{2} \leq \Delta m^{2}_{41} \leq 0.5$eV$^{2}$, the range of mass splittings that produces no significant oscillations at the Near Detector. These are the first 3+1 confidence limits set using long-baseline accelerator antineutrinos., Comment: 8 pages, 4 figures

Published

2021

5. Adjusting neutrino interaction models and evaluating uncertainties using NOvA near detector data

Author

Matthew L Strait, D. Naples, Stanley G. Wojcicki, R. Bowles, J. Hylen, R. H. Bernstein, K. Maan, M. Wetstein, M. C. Goodman, C. Sweeney, A. Moren, Z. Vallari, Anatoly Butkevich, Ch. Kullenberg, T. Olson, L. W. Koerner, S. Yu, R. B. Thayyullathil, V. A. Ryabov, A. Hatzikoutelis, Y. Yu, S. K. Kotelnikov, Vlastimil Kus, J. Tripathi, S. Germani, V. A. Matveev, Zelimir Djurcic, A. Rafique, M. Elkins, T. J. Carroll, Warner A. Miller, P. Vahle, A. Back, C. Backhouse, T. Alion, D. Kalra, J. Smolik, O.L. Klimov, Petr Vokac, Jeremy Wolcott, Gregory J Pawloski, E. C. Dukes, H. Duyang, H. Meyer, Yagmur Torun, M. C. Sanchez, M. Muether, J. Urheim, Junwei Huang, P. Ding, N. Solomey, K. Bays, Pierre Baldi, Simon Lin, Andrew J. Sutton, M. Martinez-Casales, Daniel M. Kaplan, P. Filip, A. Sousa, A. Kumar, S. Calvez, P. Singh, M. Colo, Simon J. Bending, W. Flanagan, J. A. Musser, F. Gao, Cari L. Johnson, P. Adamson, A. Yallappa Dombara, L. Li, Ihn Sik Seong, Y. Zhang, H. R. Gallagher, S. R. Mishra, L. Aliaga, G. J. Feldman, V. Grichine, E. Smith, P. Rojas, Nikolay Anfimov, M. Baird, Marvin L Marshak, R. Keloth, D. Torbunov, D. Whittington, A. Holin, J. Franc, A. Aurisano, A. Norrick, I. Kakorin, K. Mulder, R. Gandrajula, M. J. Frank, V. Singh, A. Mislivec, W. A. Mann, A. Antoshkin, B. Guo, S. Bashar, Ken Heller, Juergen Thomas, R. K. Plunkett, C. Kuruppu, S. Magill, L. Corwin, P. F. Derwent, F. Hakl, M. D. Messier, S. L. Mufson, R. B. Patterson, Anjan K. Giri, T. Vrba, M. Groh, L. Suter, J. Zalesak, B. Ramson, R. J. Nichol, J. K. Nelson, M. A. Acero, R. Hatcher, F. Jediny, J. Vasel, Alec Habig, Katsuya Yonehara, T. E. Coan, F. Psihas, Pavel Snopok, V. Raj, S. Childress, T. Miao, L. Kolupaeva, R. Murphy, Brajesh C Choudhary, A. Booth, Lily Asquith, J. M. Paley, S. Zadorozhnyy, O. Petrova, G. Agam, S. Edayath, Milos Lokajicek, L. Cremonesi, C. Bromberg, R. Petti, O. Samoylov, A. Himmel, P. Bour, L. Mualem, E. Niner, Anna L Morozova, Vipin Bhatnagar, M. Judah, B. Mayes, Jian-Guo Bian, N. Buchanan, S. Sánchez Falero, B. Rebel, P. Shanahan, E. Tiras, Petr Tas, D. Doyle, R. Ehrlich, E. Catano-Mur, B. Howard, A. Radovic, Alexander Olshevskiy, Karol Lang, T. Nosek, B. Bhuyan, P. Dung, A. Sheshukov, Bindu A. Bambah, R. L. Talaga, J. Hewes, N. Balashov, R. Zwaska, Stanislav Luchuk, T. Lackey, J. Blair, M. Wallbank, R. A. Gomes, G. S. Davies, K. Soustruznik, B. Tapia Oregui, N. Nayak, Rukmani Mohanta, Andrew Norman, T. K. Warburton, J. Hartnell, G. Nikseresht, D. P. Méndez, and V. Allakhverdian

Subjects

Physics, Particle physics, Physics and Astronomy (miscellaneous), Oscillation, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Detector, FOS: Physical sciences, lcsh:Astrophysics, Nova (laser), High Energy Physics - Experiment, Massless particle, High Energy Physics - Experiment (hep-ex), Neutrino detector, lcsh:QB460-466, lcsh:QC770-798, lcsh:Nuclear and particle physics. Atomic energy. Radioactivity, High Energy Physics::Experiment, Neutrino, Neutrino oscillation, Engineering (miscellaneous), Lepton

Abstract

The two-detector design of the NOvA neutrino oscillation experiment, in which two functionally identical detectors are exposed to an intense neutrino beam, aids in canceling leading order effects of cross-section uncertainties. However, limited knowledge of neutrino interaction cross sections still gives rise to some of the largest systematic uncertainties in current oscillation measurements. We show contemporary models of neutrino interactions to be discrepant with data from NOvA, consistent with discrepancies seen in other experiments. Adjustments to neutrino interaction models in GENIE that improve agreement with our data are presented. We also describe systematic uncertainties on these models, including uncertainties on multi-nucleon interactions from a newly developed procedure using NOvA near detector data., Comment: Code implementing adjustments to GENIE 2.12.2 described in this paper is available at https://github.com/novaexperiment/NOvARwgt-public

Published

2020

6. Improved Constraints on Sterile Neutrino Mixing from Disappearance Searches in the MINOS, MINOS+ , Daya Bay, and Bugey-3 Experiments

Author

J. L. Sun, E. T. Worcester, F. Z. Qi, Jingyuan Guo, X. H. Guo, M. Dvořák, C. H. Wang, Feiyang Zhang, Richard Rosero, Jen-Chieh Peng, X. L. Ji, J. Park, J. H. C. Lee, J. P. Gallo, Miao He, A. E. Kreymer, S. V. Cao, J. Dove, Yuda Zeng, P. Lucas, Marvin L Marshak, Shanfeng Li, Chun S. J. Pun, Zhuojun Hu, D. C. Jones, Li Zhou, Christopher L. Marshall, J. F. Chang, A. B. Balantekin, Diru Wu, N. Poonthottathil, Yunzhe Liu, D. M. Xia, Shaomin Chen, Jun Cao, R. Chen, N. Graf, Y. Y. Ding, S. Hans, C. Lu, J. L. Xu, Rakesh Sharma, R. W. Hackenburg, S. R. Hahn, Haifeng Yao, S. Childress, S. H. Kettell, X. B. Ma, A. Aurisano, Honghan Gong, Maxim Gonchar, Xinglong Li, Z. Wang, S. F. Li, R. A. Johnson, H. H. Zhang, Jiawen Zhang, Fengpeng An, Yuhang Guo, Alexander Olshevskiy, Siew Cheng Wong, H. R. Band, Guey-Lin Lin, Jonathan S. Lu, Dmitry V. Naumov, Lin Yang, J. K. Nelson, D. E. Jaffe, H. Liang, Yixue Chen, G. B. Mills, Z. Y. Yu, Z. K. Cheng, K. Whisnant, J. J. Ling, Karol Lang, Z. P. Zhang, J. R. Meier, Jinmei Liu, Simon Blyth, J. Cheng, M. Kordosky, Jing Zhao, S. Li, X. Y. Ma, R. Mehdiyev, S. J. Patton, J. Schneps, Andrew Blake, M. Z. Wang, Ming Chung Chu, Zhangquan Xie, H. L. Zhuang, Michael Kramer, I. Anghel, A. Timmons, C. Morales Reveco, F. L. Wu, Y. X. Zhang, M. M. Pfützner, R. K. Plunkett, Yufeng Li, K. L. Jen, Ž. Pavlović, W. J. Wu, Vit Vorobel, R. D. McKeown, Wei Li, Artem Chukanov, N. Dash, Yue Meng, P. Sail, M. V. Diwan, Zhiyong Zhang, B. Roskovec, John Evans, X. Q. Li, M. Qi, M. Bishai, Tadeas Dohnal, Hongzhao Yu, Jing Wang, A. Schreckenberger, Nasir Shaheed, Hanxiong Huang, Z. B. Li, Y. Z. Yang, L. Kang, Qingmin Zhang, J. K. C. Leung, Gregory J Pawloski, R. T. Lei, Hongliang Li, P. Gouffon, X. Qiu, M. Ye, W. Wang, B. Z. Hu, N. Y. Wang, M. A. Thomson, D. Naples, B. Viren, Jianrun Hu, Stanley G. Wojcicki, L. Guo, Zhijian Zhang, Jiachen Li, J. O'Connor, Alec Habig, Y. B. Hsiung, Chao Zhang, K. Grzelak, J. J. Cherwinka, Xiaolu Ji, Liangjian Wen, D. D. Phan, Guofu Cao, L. H. Wei, K. Treskov, N. Raper, Jinjuan Ren, Q. J. Li, W. A. Mann, R. Hatcher, R. A. Gomes, Jim Napolitano, N. Tagg, A. Radovic, Qinglong Wu, G.D. Barr, Junwei Huang, Kam Biu Luk, G. J. Feldman, Yinhong Zhang, Z. Guo, Tian Xue, A. Holin, Juergen Thomas, Y. K. Heng, K. T. McDonald, J. Todd, Yanhui Liu, A. C. Weber, A. Perch, X. C. Ruan, Xin Qian, Guanghua Gong, Joao A B Coelho, Chi Lin, Juan Pedro Ochoa-Ricoux, L. Mora Lepin, A. Higuera, X. T. Huang, C. G. Yang, H. R. Pan, Zhi-zhong Xing, S. De Rijck, C. E. Tull, D. Torretta, J. Lee, H. Y. Wei, H. L. H. Wong, J. Hartnell, H. S. Chen, T. J. Carroll, P. Adamson, Y. K. Hor, Jianglai Liu, L. W. Koerner, X. Wang, Haoqi Lu, Y. F. Wang, W. Flanagan, T. Tmej, S. Kohn, S. Germani, Warner A. Miller, R. Toner, E. Naumova, D. A. Dwyer, T. J. Langford, A. Sousa, Yuman Wang, S. Zeng, W. Q. Gu, H. M. Steiner, P. Vahle, Y. Q. Ma, F. S. Deng, Bing-Lin Young, B. R. Littlejohn, Yaoyu Zhang, Y. B. Huang, Patrick Huber, Y. H. Chang, X. T. Zhang, Shengxin Lin, C. M. Castromonte, T. Hu, D. A. Martinez Caicedo, Minfang Yeh, Yongzhu Chen, Baobiao Yue, F. Li, R. G. Wang, W. H. Tse, R. J. Nichol, N. Mayer, Liang Zhan, K. M. Heeger, Christopher G. White, S. C. Tognini, Rupert Leitner, D. Dolzhikov, T. Xu, J. M. Link, J. P. Cummings, mrow, Leigh H. Whitehead, M. Y. Gabrielyan, L. S. Littenberg, M. C. Sanchez, R. B. Pahlka, and Z. M. Wang

Subjects

Physics, Particle physics, Sterile neutrino, Muon, General Physics and Astronomy, 01 natural sciences, MiniBooNE, MINOS, 0103 physical sciences, Muon neutrino, Neutron, 010306 general physics, Electron neutrino, Mixing (physics)

Abstract

Searches for electron antineutrino, muon neutrino, and muon antineutrino disappearance driven by sterile neutrino mixing have been carried out by the Daya Bay and MINOS+ collaborations. This Letter presents the combined results of these searches, along with exclusion results from the Bugey-3 reactor experiment, framed in a minimally extended four-neutrino scenario. Significantly improved constraints on the θ_{μe} mixing angle are derived that constitute the most constraining limits to date over five orders of magnitude in the mass-squared splitting Δm_{41}^{2}, excluding the 90% C.L. sterile-neutrino parameter space allowed by the LSND and MiniBooNE observations at 90% CL_{s} for Δm_{41}^{2}

Published

2020

7. Precision Constraints for Three-Flavor Neutrino Oscillations from the Full MINOS+ and MINOS Dataset

Author

G. J. Feldman, A. Holin, R. A. Gomes, S. C. Tognini, M. A. Thomson, D. Naples, Stanley G. Wojcicki, A. Aurisano, J. O'Connor, J. K. Nelson, R. Toner, A. Schreckenberger, L. W. Koerner, T. J. Carroll, Gregory J Pawloski, A. Sousa, W. Flanagan, J. Schneps, P. Vahle, R. Mehdiyev, P. Adamson, C. M. Castromonte, mrow, M. M. Pfützner, R. Hatcher, S. De Rijck, M. Kordosky, I. Anghel, Leigh H. Whitehead, M. Y. Gabrielyan, R. J. Nichol, N. Mayer, G. B. Mills, M. C. Sanchez, R. B. Pahlka, S. Germani, Andrew Blake, Warner A. Miller, John Evans, X. Qiu, P. Lucas, R. K. Plunkett, A. Timmons, J. R. Meier, S. R. Hahn, A. Perch, P. Sail, A. E. Kreymer, Marvin L Marshak, Ž Pavlović, J. Todd, P. Gouffon, R. Chen, D. Torretta, Rakesh Sharma, S. Childress, S. V. Cao, J. Hartnell, Joao A B Coelho, N. Graf, N. Tagg, G.D. Barr, Junwei Huang, Juergen Thomas, N. Poonthottathil, K. Grzelak, A. C. Weber, D. D. Phan, W. A. Mann, Alec Habig, Karol Lang, and A. Radovic

Subjects

Physics, Particle physics, General Physics and Astronomy, FOS: Physical sciences, 01 natural sciences, Neutrino Oscillations, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), Neutrino detector, MINOS, Neutrino Detectors, 0103 physical sciences, Neutrino Oscillations, Neutrino Detectors, Neutrino, 010306 general physics, Neutrino oscillation

Abstract

We report the final measurement of the neutrino oscillation parameters $\Delta m^2_{32}$ and $\sin^2\theta_{23}$ using all data from the MINOS and MINOS+ experiments. These data were collected using a total exposure of $23.76 \times 10^{20}$ protons on target producing $\nu_{mu}$ and $\overline{\nu_\mu}$ beams and 60.75 kt$\cdot$yr exposure to atmospheric neutrinos. The measurement of the disappearance of $\nu_{\mu}$ and the appearance of $\nu_e$ events between the Near and Far detectors yields $|\Delta m^2_{32}|=2.40^{+0.08}_{-0.09}~(2.45^{+0.07}_{-0.08}) \times 10^{-3}$ eV$^2$ and $\sin^2\theta_{23} = 0.43^{+0.20}_{-0.04} ~(0.42^{+0.07}_{-0.03})$ at 68% C.L. for Normal (Inverted) Hierarchy., Comment: 6 pages, 4 figures, 3 tables

Published

2020

8. First measurement of neutrino oscillation parameters using neutrinos and antineutrinos by NOvA

Author

R. Murphy, C. Bromberg, Borun D. Chowdhury, R. B. Patterson, Anjan K. Giri, H. Duyang, S. Zadorozhnyy, D. Naples, M. Campbell, Stanley G. Wojcicki, W. Flanagan, A. Cedeno, N. Yadav, A. Holin, V Grichine, R. H. Bernstein, S. Edayath, S. Yu, M. Martinez-Casales, E. C. Dukes, Katsuya Yonehara, T. E. Coan, Cari L. Johnson, P. Ding, I. Kakorin, P. Shanahan, D. Doyle, I. Kourbanis, R. Ehrlich, E. Catano-Mur, J. Tripathi, A. Sheshukov, S. Altakarli, T. Miao, T. Olson, A. Aurisano, B. Tapia Oregui, N. Nayak, F. Gao, V. A. Matveev, Bo Wang, A. Radovic, S. R. Mishra, Bindu A. Bambah, R. Hatcher, F. Psihas, R. A. Rameika, Ihn Sik Seong, B. Bhuyan, Brajesh C Choudhary, D. D. Phan, E. Smith, J. K. Nelson, G. Nikseresht, D. P. Méndez, Pavel Snopok, J. Lozier, B. Zamorano, K. Mulder, Petr Tas, L. Cremonesi, V. A. Ryabov, W. A. Mann, J. Cooper, K. Bays, V. Allakhverdian, Rukmani Mohanta, Andrew Norman, Matthew L Strait, W. H. Miller, P. Singh, J. M. Paley, E. Song, Simon J. Bending, H. Meyer, M. C. Sanchez, O. Petrova, N. Balashov, A. Yallappa Dombara, Vipin Bhatnagar, V. Raj, T. K. Warburton, T. Nosek, J. Hartnell, J. Urheim, P. Vahle, L. Vinton, H. R. Gallagher, A. Hatzikoutelis, Vlastimil Kus, Ch Kulenberg, M. Judah, A. Back, Junwei Huang, A. Kumar, R. Zwaska, T. Lackey, M. D. Messier, A. E. Kreymer, B. V.K.S. Potukuchi, Simon Lin, J. Zalesak, D. Pershey, M. Baird, Petr Vokac, Jeremy Wolcott, Jianming Bian, J. Hewes, C. Backhouse, Alexander Olshevskiy, D. Torbunov, Marvin L Marshak, Stanislav Luchuk, A. Booth, Gregory J Pawloski, J. A. Musser, N. Buchanan, S. Sánchez Falero, M. Wetstein, Juergen Thomas, B. Guo, P. Adamson, S. Bashar, Ken Heller, D. Kalra, C. Principato, Nikolay Anfimov, M. R. While, O. Klimov, M. Groh, A. Moren, C. Kuruppu, B. Rebel, K. Soustruznik, Karol Lang, F. Hakl, A. Mislivec, L. W. Koerner, L. Suter, M. Elkins, T. J. Carroll, Pierre Baldi, E. Tiras, R. Gandrajula, T. Vrba, Yagmur Torun, R. B. Thayyullathil, Andrew J. Sutton, F. Jediny, Anatoly Butkevich, J. Blair, P. Filip, M. Muether, M. Wallbank, S Kotelnikov, R. A. Gomes, A. Antoshkin, S. Magill, G. J. Feldman, R. Petti, D. Whittington, M. J. Frank, J. Vasel, R. K. Plunkett, K. Maan, Maury Goodman, V. Singh, L. Kolupaeva, P. F. Derwent, L. Corwin, A. Tsaris, T. Blackburn, S. L. Mufson, B. Howard, S. Calvez, P. Rojas, T. Alion, A. Sousa, Z. Djurcic, R. L. Talaga, Daniel M. Kaplan, J. Hylen, S. Germani, M. Colo, L. Aliaga, Alec Habig, Gavin Davies, R. J. Nichol, M. A. Acero, A. Himmel, P. Bour, L. Mualem, Milos Lokajicek, E. Niner, O. Samoylov, J. Smolik, S. Childress, N. Solomey, and R. Keloth

Subjects

Physics, Particle physics, Neutrino oscillations, High Energy Physics::Phenomenology, FOS: Physical sciences, General Physics and Astronomy, Nova (laser), 01 natural sciences, NuMI, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), 0103 physical sciences, High Energy Physics::Experiment, Fermilab, Neutrino, 010306 general physics, Neutrino oscillation, Mass hierarchy, QC

Abstract

The NOvA experiment has made a $4.4\sigma$-significant observation of $\bar\nu_{e}$ appearance in a 2 GeV $\bar\nu_{\mu}$ beam at a distance of 810 km. Using $12.33\times10^{20}$ protons on target delivered to the Fermilab NuMI neutrino beamline, the experiment recorded 27 $\bar\nu_{\mu} \rightarrow \bar\nu_{e}$ candidates with a background of 10.3 and 102 $\bar\nu_{\mu} \rightarrow \bar\nu_{\mu}$ candidates. This new antineutrino data is combined with neutrino data to measure the oscillation parameters $|\Delta m^2_{32}| = 2.48^{+0.11}_{-0.06}\times10^{-3}$ eV$^2/c^4$, $\sin^2 \theta_{23} = 0.56^{+0.04}_{-0.03}$ in the normal neutrino mass hierarchy and upper octant and excludes most values near $\delta_{\rm CP}=\pi/2$ for the inverted mass hierarchy by more than 3$\sigma$. The data favor the normal neutrino mass hierarchy by 1.9$\sigma$ and $\theta_{23}$ values in the upper octant by 1.6$\sigma$., Comment: 8 pages, 3 figures. Supplementary material attached (6 figures). To view attachments, please download and extract the gzipped tar source file listed under "Other formats". Fixed supplementary material to include just the compiled pdf not the Latex Source

Published

2019

9. Search for sterile neutrinos in MINOS and MINOS+ using a two-detector fit

Author

A. Radovic, Karol Lang, S. C. Tognini, T. J. Carroll, Harvey B Newman, S. Germani, X. Tian, A. V. Devan, A. Holin, G. M. Irwin, M. M. Medeiros, G. J. Feldman, Joao A B Coelho, M. V. Diwan, D. Cronin-Hennessy, S. Phan-Budd, A. Sousa, P. Gouffon, R. L. Talaga, M. Kordosky, Andrew Blake, L. Corwin, Leigh H. Whitehead, B. Viren, N. E. Devenish, A. Timmons, M. Y. Gabrielyan, P. J. Litchfield, S. V. Cao, A. E. Kreymer, P. Sail, R. Chen, Marvin L Marshak, J. K. De Jong, J. A. Nowak, Rakesh Sharma, J. M. Paley, P. Schreiner, R. B. Patterson, C. D. Moore, M. A. Thomson, D. Naples, Stanley G. Wojcicki, S. R. Mishra, A. C. Weber, J. O'Connor, D. D. Phan, J. J. Evans, N. Tagg, G.D. Barr, Junwei Huang, M. M. Pfützner, W. A. Mann, S. De Rijck, E. Falk, A. Perch, Z. Isvan, L. Mualem, J. Schneps, M. V. Frohne, H. R. Gallagher, J. Hylen, S. Moed Sher, Juergen Thomas, I. Anghel, C. M. Castromonte, S. Childress, N. Poonthottathil, W. H. Miller, J. K. Nelson, G. Tzanakos, Maury Goodman, Alec Habig, D. A. Jensen, G. Koizumi, R. J. Nichol, N. Mayer, T. Kafka, M. D. Messier, Gregory J Pawloski, C. James, Christopher G. White, L. W. Koerner, M. C. Sanchez, W. Flanagan, R. B. Pahlka, A. Schreckenberger, Carlos Escobar, R. K. Plunkett, J. Todd, X. Qiu, D. Torretta, P. Lucas, J. Hartnell, S. R. Hahn, G. J. Bock, H. A. Rubin, R. Toner, B. Rebel, R. Hatcher, M. Bishai, M. Orchanian, K. Grzelak, J. R. Meier, N. Graf, R. Gran, R. Mehdiyev, P. Vahle, C. L. McGivern, R. A. Gomes, C. Rosenfeld, P. Adamson, D. Bogert, S. M. S. Kasahara, R. Zwaska, R. C. Webb, J. Urheim, A. Aurisano, and J. A. Musser

Subjects

Physics, Sterile neutrino, Particle physics, Physics::Instrumentation and Detectors, Solar neutrino, Astrophysics::High Energy Astrophysical Phenomena, High Energy Physics::Phenomenology, FOS: Physical sciences, General Physics and Astronomy, Solar neutrino problem, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Neutrino detector, MINOS, 0103 physical sciences, Measurements of neutrino speed, High Energy Physics::Experiment, Neutrino, 010306 general physics, Neutrino oscillation, QC

Abstract

A search for mixing between active neutrinos and light sterile neutrinos has been performed by looking for muon neutrino disappearance in two detectors at baselines of 1.04 km and 735 km, using a combined MINOS and MINOS+ exposure of $16.36\times10^{20}$ protons-on-target. A simultaneous fit to the charged-current muon neutrino and neutral-current neutrino energy spectra in the two detectors yields no evidence for sterile neutrino mixing using a 3+1 model. The most stringent limit to date is set on the mixing parameter $\sin^2\theta_{24}$ for most values of the sterile neutrino mass-splitting $\Delta m^2_{41} > 10^{-4}$ eV$^2$., Comment: 7 pages, 4 figures, additional analysis details and a data release in the ancillary materials

Published

2019

10. New constraints on oscillation parameters fromνeappearance andνμdisappearance in the NOvA experiment

Author

Gavin Davies, R. J. Nichol, M. A. Acero, M. Colo, L. Aliaga, J. Cooper, M. Wetstein, S. De Rijck, C. Principato, S. Germani, Alec Habig, A. Moren, Rukmani Mohanta, L. Cremonesi, Andrew Norman, Warner A. Miller, T. E. Coan, J. Smolik, Matthew L Strait, N. Solomey, N. Balashov, R. Keloth, R. Petti, Brajesh C Choudhary, Junwei Huang, Milos Lokajicek, A. Bolshakova, T. J. Carroll, O. Samoylov, H. Duyang, A. Himmel, P. Bour, Vipin Bhatnagar, E. C. Dukes, R. Zwaska, S. Phan-Budd, S. K. Kotelnikov, F. Gao, S. Childress, L. Mualem, S. Magill, T. Alion, A. Sousa, T. Miao, T. Lackey, A. Kumar, E. Niner, P. Ding, A. Vold, M. Muether, J. Urheim, A. Holin, Simon Lin, M. Judah, J. Brown, S. Yang, J. Tripathi, M. Baird, K. Bays, Daniel P Cronin-Hennessy, R. A. Rameika, K. Maan, J. A. Musser, M. C. Sanchez, A. Antoshkin, N. Nayak, E. Smith, G. J. Feldman, D. Whittington, V. A. Ryabov, E. Arrieta-Diaz, J. Vasel, R. K. Plunkett, L. Kolupaeva, D. P. Méndez, P. Singh, V. Allakhverdian, S. R. Mishra, P. Shanahan, Jian-Guo Bian, J. Blair, Simon J. Bending, B. Howard, A. E. Kreymer, Borun D. Chowdhury, J. K. Nelson, S. C. Tognini, J.A. Sepulveda-Quiroz, Y. Oksuzian, N. Buchanan, Marvin L Marshak, D. Torbunov, Vladimir Grichine, Juergen Thomas, R. B. Patterson, T. Olson, R. Ehrlich, E. Catano-Mur, Petr Vokac, Jeremy Wolcott, H. R. Gallagher, Gregory J Pawloski, B. Guo, Ken Heller, K. Sachdev, Stanislav Luchuk, O. Klimov, M. Groh, V. Matveev, Zelimir Djurcic, B. Rebel, R. A. Gomes, T. Nosek, V. Bychkov, A. Hatzikoutelis, K. Soustruznik, Yagmur Torun, W. A. Mann, Vlastimil Kus, M. D. Messier, A. Radovic, C. Backhouse, E. Tiras, R. Murphy, P. Rojas, D. Naples, A. Cedeno, M. Campbell, S. Edayath, P. F. Derwent, P. Adamson, B. Bhuyan, Petr Tas, D. Grover, J. M. Paley, J. Davies, T. Blackburn, Nikolay Anfimov, Stanley G. Wojcicki, Anatoly Butkevich, I. Kakorin, C. Bromberg, A. Mislivec, E. Song, O. Petrova, T. Vrba, L. W. Koerner, J. Hylen, R. H. Bernstein, S. Yu, Daniel M. Kaplan, T. K. Warburton, R. B. Thayyullathil, Alexander Olshevskiy, P. Dung, A. Sheshukov, J. Lozier, B. Zamorano, J. Hartnell, M. C. Goodman, H. Meyer, Bindu A. Bambah, Karol Lang, R. L. Talaga, Ch Kulenberg, J. Zalesak, I. Kourbanis, M. J. Frank, V. Singh, Ranjan Dharmapalan, B. V.K.S. Potukuchi, L. Corwin, A. Tsaris, S. L. Mufson, R. Gandrajula, Bo Wang, L. Vinton, D. Kalra, R. Hatcher, Pavel Snopok, Fernanda Psihas, A. K. Giri, A. Aurisano, Biswaranjan Behera, P. Vahle, A. Back, D. Pershey, C. Kuruppu, F. Hakl, L. Suter, and F. Jediny

Subjects

Physics, Particle physics, 010308 nuclear & particles physics, Oscillation, 0103 physical sciences, Nova (laser), Neutrino, Space Science, 010306 general physics, Neutrino oscillation, 01 natural sciences

Abstract

For full abstract please refer to Official URL link”, or if there is a document attached which contains the abstract, “For full abstract please refer to attached document

Published

2018

11. 1985 Proceedings of the Thirteenth SLAC Summer Institute on Particle Physics: Supersymmetry

Author

G. J. Feldman

Subjects

Physics, Particle physics, Supersymmetry

Published

2018

12. Search for active-sterile neutrino mixing using neutral-current interactions in NOvA

Author

D. J. Ambrose, N. Yadav, A. Holin, S. K. Kotelnikov, Borun D. Chowdhury, M. Colo, T. Ghosh, M. Y. Gabrielyan, R. B. Patterson, Anjan K. Giri, B. Reed, J. Tripathi, L. Aliaga, P. F. Derwent, K. Bays, W. M. Lee, Gavin Davies, X. Tian, R. J. Nichol, G. K. Kafka, Simon J. Bending, D. Grover, Alec Habig, T. Blackburn, J. M. Paley, Ajay Kumar, T. Nosek, B. Bhuyan, A. Antoshkin, H. R. Gallagher, T. E. Coan, Rukmani Mohanta, Andrew Norman, L. Mualem, D. Rocco, J. Zalesak, V. Bychkov, E. Song, S. Magill, O. Petrova, D. Pershey, F. Jediny, Z. Djurcic, Kamil Augsten, R.A. Rameika, H. Duyang, A. Vold, M. Campbell, Stanley G. Wojcicki, B. Rebel, R. Hatcher, D. P. Méndez, A. Himmel, J. Lozier, R. Murphy, C. Principato, S. Childress, T. Miao, A. Moren, J. Hylen, R. H. Bernstein, S. Kurbanov, B. Zamorano, D. Whittington, S. C. Tognini, Biswaranjan Behera, P. Vahle, K. Sachdev, Ranjan Dharmapalan, J. Smolik, Siqi Yang, P. Shanahan, J. Brown, I. Kourbanis, N. Solomey, R. Ehrlich, E. Catano-Mur, C. Bromberg, C. Backhouse, W. A. Mann, L. Vinton, B. Howard, A. Radovic, J. Hartnell, K. Maan, S. Edayath, Bo Wang, J. K. Nelson, Alexander Olshevskiy, G. Brunetti, M. J. Frank, V. Singh, R. K. Plunkett, L. Corwin, A. Tsaris, S. L. Mufson, Vladimir Grichine, B. V. K. S. Potukuchi, Anatoly Butkevich, M. Muether, Subhasmita Mishra, R. Keloth, Stanislav Luchuk, Karol Lang, A. Bolshakova, Yuri Oksuzian, E. C. Dukes, J. Urheim, G. J. Feldman, M. D. Messier, D. Kalra, K. Matera, Juergen Thomas, D. Cronin-Hennessy, P. Sail, K. Soustruznik, Milos Lokajicek, A. Hatzikoutelis, N. J. Buchanan, Petr Tas, J. Davies, Simon Lin, P. Ding, S. Germani, Jeremy Wolcott, E. Arrieta-Diaz, J. B. Singh, A. Sheshukov, P. Singh, E. Niner, O. Samoylov, H. Meyer, A. Aurisano, Warner A. Miller, J. A. Musser, L. Suter, Bindu A. Bambah, Matthew L Strait, Vipin Bhatnagar, L. Cremonesi, Joao A B Coelho, R. L. Talaga, A. E. Kreymer, Marvin L Marshak, M. Judah, B. Guo, Ken Heller, T. Olson, V. Matveev, S. Phan-Budd, A. Sousa, Jian-Guo Bian, F. Psihas, P. Adamson, Nikolay Anfimov, S. M. S. Kasahara, R. B. Thayyullathil, T. Vrba, J. Cooper, R. Zwaska, T. Lackey, Mcd Sanchez, S. P. Kasetti, R. Schroeter, J. Vasel, L. Kolupaeva, R. A. Gomes, M. Groh, Maury Goodman, P. Rojas, Brajesh C Choudhary, V. A. Ryabov, Matthew Wetstein, Gregory J Pawloski, R. Poling, M. Baird, J.A. Sepulveda-Quiroz, R. Petti, Adamson, P, Aliaga, L, Ambrose, D, Anfimov, N, Antoshkin, A, Arrieta-Diaz, E, Augsten, K, Aurisano, A, Backhouse, C, Baird, M, Bambah, B, Bays, K, Behera, B, Bending, S, Bernstein, R, Bhatnagar, V, Bhuyan, B, Bian, J, Blackburn, T, Bolshakova, A, Bromberg, C, Brown, J, Brunetti, G, Buchanan, N, Butkevich, A, Bychkov, V, Campbell, M, Catano-Mur, E, Childress, S, Choudhary, B, Chowdhury, B, Coan, T, Coelho, J, Colo, M, Cooper, J, Corwin, L, Cremonesi, L, Cronin-Hennessy, D, Davies, G, Davies, J, Derwent, P, Dharmapalan, R, Ding, P, Djurcic, Z, Dukes, E, Duyang, H, Edayath, S, Ehrlich, R, Feldman, G, Frank, M, Gabrielyan, M, Gallagher, H, Germani, S, Ghosh, T, Giri, A, Gomes, R, Goodman, M, Grichine, V, Groh, M, Group, R, Grover, D, Guo, B, Habig, A, Hartnell, J, Hatcher, R, Hatzikoutelis, A, Heller, K, Himmel, A, Holin, A, Howard, B, Hylen, J, Jediny, F, Judah, M, Kafka, G, Kalra, D, Kasahara, S, Kasetti, S, Keloth, R, Kolupaeva, L, Kotelnikov, S, Kourbanis, I, Kreymer, A, Kumar, A, Kurbanov, S, Lackey, T, Lang, K, Lee, W, Lin, S, Lokajicek, M, Lozier, J, Luchuk, S, Maan, K, Magill, S, Mann, W, Marshak, M, Matera, K, Matveev, V, Mendez, D, Messier, M, Meyer, H, Miao, T, Miller, W, Mishra, S, Mohanta, R, Moren, A, Mualem, L, Muether, M, Mufson, S, Murphy, R, Musser, J, Nelson, J, Nichol, R, Niner, E, Norman, A, Nosek, T, Oksuzian, Y, Olshevskiy, A, Olson, T, Paley, J, Patterson, R, Pawloski, G, Pershey, D, Petrova, O, Petti, R, Phan-Budd, S, Plunkett, R, Poling, R, Potukuchi, B, Principato, C, Psihas, F, Radovic, A, Rameika, R, Rebel, B, Reed, B, Rocco, D, Rojas, P, Ryabov, V, Sachdev, K, Sail, P, Samoylov, O, Sanchez, M, Schroeter, R, Sepulveda-Quiroz, J, Shanahan, P, Sheshukov, A, Singh, J, Singh, P, Singh, V, Smolik, J, Solomey, N, Song, E, Sousa, A, Soustruznik, K, Strait, M, Suter, L, Talaga, R, Tas, P, Thayyullathil, R, Thomas, J, Tian, X, Tognini, S, Tripathi, J, Tsaris, A, Urheim, J, Vahle, P, Vasel, J, Vinton, L, Vold, A, Vrba, T, Wang, B, Wetstein, M, Whittington, D, Wojcicki, S, Wolcott, J, Yadav, N, Yang, S, Zalesak, J, Zamorano, B, and Zwaska, R

Subjects

Physics, Sterile neutrino, Particle physics, 010308 nuclear & particles physics, Physics::Instrumentation and Detectors, High Energy Physics::Phenomenology, FOS: Physical sciences, 01 natural sciences, NuMI, High Energy Physics - Experiment, Nuclear physics, Massless particle, High Energy Physics - Experiment (hep-ex), Neutrino detector, 0103 physical sciences, NOvA, sterile neutrino, neutrino mixing, neutral current, neutrino oscillation, High Energy Physics::Experiment, Fermilab, Neutrino, 010306 general physics, Neutrino oscillation, QC, Lepton

Abstract

We report results from the first search for sterile neutrinos mixing with active neutrinos through a reduction in the rate of neutral-current interactions over a baseline of 810\,km between the NOvA detectors. Analyzing a 14-kton detector equivalent exposure of 6.05$\times$10$^{20}$ protons-on-target in the NuMI beam at Fermilab, we observe 95 neutral-current candidates at the Far Detector compared with $83.5 \pm 9.7 \mbox{(stat.)} \pm 9.4 \mbox{(syst.)}$ events predicted assuming mixing only occurs between active neutrino species. No evidence for $\nu_{\mu} \rightarrow \nu_{s}$ transitions is found. Interpreting these results within a 3+1 model, we place constraints on the mixing angles $\theta_{24}, Comment: 8 pages, 4 figures

Published

2017

13. Measurement of the Neutrino Mixing Angle θ_{23} in NOvA

Author

A. Bolshakova, J. Smolik, M. C. Tamsett, N. Solomey, R. Murphy, A. Himmel, K. Bays, E. C. Dukes, L. Mualem, R. Keloth, A. Hatzikoutelis, W. M. Lee, P. Singh, Simon J. Bending, Milos Lokajicek, Petr Tas, Gavin Davies, R. J. Nichol, O. Samoylov, M. D. Messier, J. Davies, H. R. Gallagher, P. Ding, M. Colo, J. Urheim, L. Aliaga, H. Meyer, H. Duyang, E. Arrieta-Diaz, C. Bromberg, F. Jediny, J. Cooper, P. Shanahan, A. K. Giri, Simon Lin, N. Yadav, X. Tian, P. Rojas, D. P. Méndez, M. Muether, Borun D. Chowdhury, R. Ehrlich, E. Catano-Mur, R. Schroeter, D. Grover, J. M. Paley, M. C. Sanchez, S. C. Tognini, A. Holin, Alec Habig, R. B. Patterson, J. Zalesak, O. Petrova, A. Aurisano, S Kotelnikov, R. Zwaska, R. A. Rameika, S. Yang, G. K. Kafka, S. R. Mishra, Shantanu Desai, D. Cronin-Hennessy, J. Wolcott, Vipin Bhatnagar, L. Cremonesi, A. Radovic, M. Baird, A. Sheshukov, I. Kourbanis, J. A. Musser, J. K. Nelson, B. Reed, J. Tripathi, T. Nosek, G. J. Feldman, T. Olson, Brajesh C Choudhary, K. Matera, P. F. Derwent, Stanislav Luchuk, Bindu A. Bambah, M. Judah, P. Vahle, Pooja Pandey, W. A. Mann, G. Brunetti, V. A. Matveev, Bo Wang, T. Blackburn, S. Germani, Jasvinder A. Singh, R. L. Talaga, D. Pershey, B. Bhuyan, V. Bychkov, D. J. Ambrose, V. A. Ryabov, K. Soustruznik, Warner A. Miller, N. J. Buchanan, M. J. Frank, M. Campbell, V. Singh, Stanley G. Wojcicki, S. Edayath, D. Kalra, K. Sachdev, J.A. Sepulveda-Quiroz, Matthew L Strait, C. Principato, D. Rocco, A. Moren, V Grichine, L. Suter, Anatoly Butkevich, J. Hylen, R. H. Bernstein, T. Ghosh, D. Whittington, B. Behera, A. Vold, R. Poling, Ashok Kumar, E. Song, L. Corwin, A. Tsaris, M. C. Goodman, J. Hartnell, Jian-Guo Bian, Gregory J Pawloski, Joao A B Coelho, Juergen Thomas, J. Vasel, R. K. Plunkett, Zelimir Djurcic, E. Niner, M. Y. Gabrielyan, B. V.K.S. Potukuchi, J. Brown, R. Hatcher, L. Kolupaeva, R. B. Thayyullathil, A. E. Kreymer, Fernanda Psihas, M. Wetstein, J. B. Liu, Rukmani Mohanta, Marvin L Marshak, Alexander Olshevskiy, J. Lozier, Andrew Norman, B. Zamorano, B. Guo, Ken Heller, A. Antoshkin, P. Sail, S. Phan-Budd, A. Sousa, B. Rebel, Ranjan Dharmapalan, C. Backhouse, S. Kurbanov, S. Magill, R. Petti, Karol Lang, Y. Oksuzian, Kamil Augsten, K. Maan, L. Vinton, T. E. Coan, S. Childress, T. Miao, S. Mufson, S. P. Kasetti, R. A. Gomes, P. Adamson, Nikolay Anfimov, S. M. S. Kasahara, T. Vrba, Adamson, P, Aliaga, L, Ambrose, D, Anfimov, N, Antoshkin, A, Arrieta-Diaz, E, Augsten, K, Aurisano, A, Backhouse, C, Baird, M, Bambah, B, Bays, K, Behera, B, Bending, S, Bernstein, R, Bhatnagar, V, Bhuyan, B, Bian, J, Blackburn, T, Bolshakova, A, Bromberg, C, Brown, J, Brunetti, G, Buchanan, N, Butkevich, A, Bychkov, V, Campbell, M, Catano-Mur, E, Childress, S, Choudhary, B, Chowdhury, B, Coan, T, Coelho, J, Colo, M, Cooper, J, Corwin, L, Cremonesi, L, Cronin-Hennessy, D, Davies, G, Davies, J, Derwent, P, Desai, S, Dharmapalan, R, Ding, P, Djurcic, Z, Dukes, E, Duyang, H, Edayath, S, Ehrlich, R, Feldman, G, Frank, M, Gabrielyan, M, Gallagher, H, Germani, S, Ghosh, T, Giri, A, Gomes, R, Goodman, M, Grichine, V, Group, R, Grover, D, Guo, B, Habig, A, Hartnell, J, Hatcher, R, Hatzikoutelis, A, Heller, K, Himmel, A, Holin, A, Hylen, J, Jediny, F, Judah, M, Kafka, G, Kalra, D, Kasahara, S, Kasetti, S, Keloth, R, Kolupaeva, L, Kotelnikov, S, Kourbanis, I, Kreymer, A, Kumar, A, Kurbanov, S, Lang, K, Lee, W, Lin, S, Liu, J, Lokajicek, M, Lozier, J, Luchuk, S, Maan, K, Magill, S, Mann, W, Marshak, M, Matera, K, Matveev, V, Mendez, D, Messier, M, Meyer, H, Miao, T, Miller, W, Mishra, S, Mohanta, R, Moren, A, Mualem, L, Muether, M, Mufson, S, Murphy, R, Musser, J, Nelson, J, Nichol, R, Niner, E, Norman, A, Nosek, T, Oksuzian, Y, Olshevskiy, A, Olson, T, Paley, J, Pandey, P, Patterson, R, Pawloski, G, Pershey, D, Petrova, O, Petti, R, Phan-Budd, S, Plunkett, R, Poling, R, Potukuchi, B, Principato, C, Psihas, F, Radovic, A, Rameika, R, Rebel, B, Reed, B, Rocco, D, Rojas, P, Ryabov, V, Sachdev, K, Sail, P, Samoylov, O, Sanchez, M, Schroeter, R, Sepulveda-Quiroz, J, Shanahan, P, Sheshukov, A, Singh, J, Singh, P, Singh, V, Smolik, J, Solomey, N, Song, E, Sousa, A, Soustruznik, K, Strait, M, Suter, L, Talaga, R, Tamsett, M, Tas, P, Thayyullathil, R, Thomas, J, Tian, X, Tognini, S, Tripathi, J, Tsaris, A, Urheim, J, Vahle, P, Vasel, J, Vinton, L, Vold, A, Vrba, T, Wang, B, Wetstein, M, Whittington, D, Wojcicki, S, Wolcott, J, Yadav, N, Yang, S, Zalesak, J, Zamorano, B, and Zwaska, R

Subjects

neutrino oscillation, neutrino mixing angle, NOvA, 010308 nuclear & particles physics, 0103 physical sciences, General Physics and Astronomy, 010306 general physics, Mass hierarchy, 01 natural sciences, Humanities, QC, High Energy Physics - Experiment

Abstract

This Letter reports new results on muon neutrino disappearance from NOvA, using a 14 kton detector equivalent exposure of $6.05\times10^{20}$ protons-on-target from the NuMI beam at the Fermi National Accelerator Laboratory. The measurement probes the muon-tau symmetry hypothesis that requires maximal mixing ($\theta_{23} = \pi/4$). Assuming the normal mass hierarchy, we find $\Delta m^2 = (2.67 \pm 0.11)\times 10^{-3}$ eV$^2$ and $\sin^2 \theta_{23}$ at the two statistically degenerate values $0.404^{+0.030}_{-0.022}$ and $0.624^{+0.022}_{-0.030}$, both at the 68% confidence level. Our data disfavor the maximal mixing scenario with 2.6 $\sigma$ significance., Comment: 7 pages, 3 figures

Published

2017

14. A search for flavor-changing non-standard neutrino interactions using $ν_{e}$ appearance in MINOS

Author

Christopher G. White, R. J. Nichol, S. Phan-Budd, X. Tian, Stanley G. Wojcicki, A. Sousa, S. V. Cao, D. Cronin-Hennessy, P. Gouffon, B. Viren, M. Bishai, R. A. Gomes, J. M. Paley, R. L. Talaga, J. O'Connor, J. Hylen, G. Tzanakos, M. M. Medeiros, M. C. Goodman, Mcd Sanchez, N. E. Devenish, N. Tagg, G.D. Barr, Junwei Huang, G. Koizumi, Carlos Escobar, M. Orchanian, A. Holin, M. V. Diwan, C. Rosenfeld, C. M. Castromonte, P. Schreiner, N. Mayer, K. Grzelak, J. K. Nelson, Joao A B Coelho, L. H. Whitehead, R. C. Webb, M. V. Frohne, P. Adamson, R. Chen, L. Whitehead, J. K. De Jong, Subhasmita Mishra, C. L. McGivern, A. Schreckenberger, S. Moed Sher, S. M. S. Kasahara, J. Urheim, R. Sharma, R. Toner, P. Vahle, J. A. Nowak, M. Kordosky, S. Childress, T. Kafka, J. C. Thomas, N. Graf, D. A. Jensen, J. Schneps, R. B. Patterson, C. D. Moore, B. Rebel, R. Hatcher, M. D. Messier, X. Qiu, P. Lucas, D. D. Phan, M. Y. Gabrielyan, R. Gran, Andrew Blake, E. Falk, A. Timmons, W. A. Mann, H. R. Gallagher, J. A. Musser, S. C. Tognini, J. J. Evans, M. M. Pfützner, T. J. Carroll, R. Mehdiyev, I. Anghel, W. Flanagan, P. J. Litchfield, S. R. Hahn, Harvey B Newman, R. B. Pahlka, R. K. Plunkett, N. Poonthottathil, A. C. Weber, A. E. Kreymer, L. Corwin, R. Zwaska, S. Germani, Marvin L Marshak, Warner A. Miller, A. Perch, G. M. Irwin, A. V. Devan, G. J. Feldman, P. Sail, J. R. Meier, D. Bogert, S. De Rijck, A. Aurisano, G. J. Bock, J. Todd, M. A. Thomson, D. Torretta, Gregory J Pawloski, L. Mualem, J. Hartnell, C. James, H. A. Rubin, D. Naples, Alec Habig, Z. Isvan, Karol Lang, and A. Radovic

Subjects

Physics, Particle physics, 010308 nuclear & particles physics, Physics::Instrumentation and Detectors, High Energy Physics::Phenomenology, Phase (waves), DETETORES, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, MINOS, 0103 physical sciences, High Energy Physics::Experiment, Neutrino, 010306 general physics, Flavor, Mixing (physics), QC

Abstract

We report new constraints on flavor-changing non-standard neutrino interactions from the MINOS long-baseline experiment using $\nu_{e}$ and $\bar{\nu}_{e}$ appearance candidate events from predominantly $\nu_{\mu}$ and $\bar{\nu}_{\mu}$ beams. We used a statistical selection algorithm to separate $\nu_{e}$ candidates from background events, enabling an analysis of the combined MINOS neutrino and antineutrino data. We observe no deviations from standard neutrino mixing, and thus place constraints on the non-standard interaction matter effect, $|\varepsilon_{e\tau}|$, and phase, $(\delta_{CP}+\delta_{e\tau})$, using a thirty-bin likelihood fit., Comment: 5 pages, 3 figures v2: References added, caption and probability calculation clarified. Result unchanged

Published

2017

15. Measurement of singleπ0production by coherent neutral-currentνFe interactions in the MINOS Near Detector

Author

N. Graf, R. Gran, P. J. Litchfield, M. Bishai, M. Orchanian, K. Grzelak, L. Mualem, S. De Rijck, D. Torretta, M. Kordosky, D. Cronin-Hennessy, R. K. Plunkett, L. Corwin, Carlos Escobar, S. Phan-Budd, Andrew Blake, R. J. Nichol, A. Sousa, M. A. Thomson, J. K. De Jong, A. Perch, J. Hartnell, A. Timmons, H. R. Gallagher, P. Sail, P. Gouffon, S. Moed Sher, N. E. Devenish, A. Holin, R. Zwaska, R. C. Webb, B. Viren, C. Rosenfeld, G. M. Irwin, P. Schreiner, R. Chen, R. Toner, Gregory J Pawloski, M. V. Frohne, P. Adamson, C. M. Castromonte, B. Rebel, M. D. Messier, G. J. Feldman, L. Whitehead, S. Childress, R. L. Talaga, G. Tzanakos, C. James, S. V. Cao, S. M. S. Kasahara, Subhasmita Mishra, C. L. McGivern, G. Koizumi, C. D. Moore, D. A. Jensen, Joao A B Coelho, X. Tian, X. Qiu, A. Schreckenberger, J. Schneps, N. Mayer, D. Cherdack, J. C. Thomas, J. J. Evans, M. M. Pfützner, S. Germani, T. Kafka, A. E. Kreymer, J. K. Nelson, E. Falk, J. Todd, Warner A. Miller, Mcd Sanchez, H. A. Rubin, Z. Isvan, Marvin L Marshak, Christopher G. White, D. Naples, J. M. Paley, A. V. Devan, J. Urheim, R. Sharma, R. B. Pahlka, L. H. Whitehead, D. D. Phan, W. P. Oliver, P. Vahle, M. Y. Gabrielyan, R. A. Gomes, N. Tagg, Alec Habig, Karol Lang, W. A. Mann, W. Flanagan, G.D. Barr, Junwei Huang, M. M. Medeiros, J. A. Musser, R. Hatcher, N. Poonthottathil, P. Lucas, T. J. Carroll, S. C. Tognini, G. J. Bock, Harvey B Newman, R. Mehdiyev, S. R. Hahn, R. B. Patterson, J. R. Meier, A. Radovic, D. Bogert, A. Aurisano, Stanley G. Wojcicki, J. O'Connor, J. Hylen, M. C. Goodman, M. V. Diwan, J. A. Nowak, I. Anghel, and A. C. Weber

Subjects

Physics, Neutral current, 010308 nuclear & particles physics, Scattering, Detector, 01 natural sciences, NuMI, Nuclear physics, MINOS, 0103 physical sciences, Fermilab, Neutrino, 010306 general physics, Coherence (physics)

Abstract

Forward single π^0 production by coherent neutral-current interactions, νA→νAπ^0, is investigated using a 2.8×10^(20) protons-on-target exposure of the MINOS Near Detector. For single-shower topologies, the event distribution in production angle exhibits a clear excess above the estimated background at very forward angles for visible energy in the range 1–8 GeV. Cross sections are obtained for the detector medium comprised of 80% iron and 20% carbon nuclei with ⟨A⟩=48, the highest-⟨A⟩ target used to date in the study of this coherent reaction. The total cross section for coherent neutral-current single π^0 production initiated by the ν_μ flux of the NuMI low-energy beam with mean (mode) E_ν of 4.9 GeV (3.0 GeV), is 77.6±5.0(stat)^(+15.0)_(−16.8)(syst)×10^(−40) cm^2 pernucleus. The results are in good agreement with predictions of the Berger-Sehgal model.

Published

2016

16. A search for sterile neutrinos mixing with muon neutrinos in MINOS

Author

R. Hatcher, S. De Rijck, X. Tian, Joao A B Coelho, P. Schreiner, G. M. Irwin, H. A. Rubin, Alec Habig, C. Rosenfeld, G. J. Feldman, M. D. Messier, G. Tzanakos, D. Cronin-Hennessy, E. Falk, N. Graf, P. Adamson, J. R. Meier, Christopher G. White, R. Gran, M. Kordosky, P. Gouffon, M. C. Sanchez, Andrew Blake, T. Kafka, A. C. Weber, Z. Isvan, G. Koizumi, B. Viren, S. M. S. Kasahara, A. Timmons, R. B. Pahlka, L. Mualem, R. Chen, Rakesh Sharma, R. L. Talaga, M. V. Frohne, Gregory J Pawloski, A. E. Kreymer, N. Tagg, S. Childress, L. H. Whitehead, J. K. Nelson, T. J. Carroll, R. C. Webb, C. James, C. M. Castromonte, S. Germani, G.D. Barr, Junwei Huang, Harvey B Newman, A. Holin, M. Bishai, N. Poonthottathil, C. D. Moore, D. Torretta, Marvin L Marshak, Warner A. Miller, R. Mehdiyev, W. Flanagan, P. Lucas, A. Radovic, G. J. Bock, A. V. Devan, M. Orchanian, Juergen Thomas, R. B. Patterson, S. V. Cao, J. J. Evans, M. M. Pfützner, L. Corwin, K. Grzelak, J. Schneps, H. R. Gallagher, R. A. Gomes, J. M. Paley, P. Sail, S. R. Mishra, S. Phan-Budd, A. Sousa, R. Toner, B. Rebel, J. Hartnell, D. D. Phan, S. R. Hahn, N. E. Devenish, J. K. De Jong, I. Anghel, W. A. Mann, M. V. Diwan, P. J. Litchfield, M. M. Medeiros, A. Perch, S. Moed Sher, R. J. Nichol, N. Mayer, A. Schreckenberger, J. Urheim, Karol Lang, R. Zwaska, Carlos Escobar, R. K. Plunkett, X. Qiu, J. A. Nowak, M. A. Thomson, J. A. Musser, D. Naples, Stanley G. Wojcicki, J. Todd, J. O'Connor, J. Hylen, M. C. Goodman, Leigh H. Whitehead, M. Y. Gabrielyan, S. C. Tognini, D. A. Jensen, C. L. McGivern, P. Vahle, D. Bogert, and A. Aurisano

Subjects

Physics, Sterile neutrino, Particle physics, Muon, 010308 nuclear & particles physics, High Energy Physics::Phenomenology, FOS: Physical sciences, General Physics and Astronomy, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Phenomenology, High Energy Physics - Experiment (hep-ex), Matrix (mathematics), High Energy Physics - Phenomenology (hep-ph), MINOS, 0103 physical sciences, Phenomenological model, High Energy Physics::Experiment, Neutrino, 010306 general physics, Mixing (physics), Beam (structure), QC

Abstract

We report results of a search for oscillations involving a light sterile neutrino over distances of 1.04 and $735\,\mathrm{km}$ in a $\nu_{\mu}$-dominated beam with a peak energy of $3\,\mathrm{GeV}$. The data, from an exposure of $10.56\times 10^{20}\,\textrm{protons on target}$, are analyzed using a phenomenological model with one sterile neutrino. We constrain the mixing parameters $\theta_{24}$ and $\Delta m^{2}_{41}$ and set limits on parameters of the four-dimensional Pontecorvo-Maki-Nakagawa-Sakata matrix, $|U_{\mu 4}|^{2}$ and $|U_{\tau 4}|^{2}$, under the assumption that mixing between $\nu_{e}$ and $\nu_{s}$ is negligible ($|U_{e4}|^{2}=0$). No evidence for $\nu_{\mu} \to \nu_{s}$ transitions is found and we set a world-leading limit on $\theta_{24}$ for values of $\Delta m^{2}_{41} \lesssim 1\,\mathrm{eV}^{2}$., Comment: 7 pages, 4 figures

Published

2016

17. Charge-separated atmospheric neutrino-induced muons in the MINOS far detector

Author

S. Murgia, B. Speakman, D. J. Auty, A. Lebedev, D. G. Michael, M. Zois, M. Kordosky, P. S. Miyagawa, P. Stamoulis, V. K. Semenov, A. E. Kreymer, P. Vahle, C. Howcroft, G. Tzanakos, H. R. Gallagher, G. Koizumi, J. K. De Jong, P. Lucas, N. Mayer, M. Watabe, D. J. Boehnlein, J. Reichenbacher, D. A. Harris, David Petyt, Marvin L Marshak, E. A. Peterson, M. Bishai, Warner A. Miller, Ken Heller, Mcd Sanchez, T. Joffe-Minor, Ž Pavlović, T. Kafka, M. Dierckxsens, M. A. Thomson, D. Naples, A. C. Weber, P. A. Symes, Stanley G. Wojcicki, S. M. Seun, M. Dorman, Jie Liu, K. Grzelak, M. D. Messier, S. Childress, R. Piteira, S. R. Mishra, Niki Saoulidou, G. F. Pearce, V. A. Ryabov, E. Buckley-Geer, J. Boehm, J. J. Evans, D. Rahman, S. Avvakumov, G. Tinti, A. Holin, T. Bergfeld, S. M S Kasahara, A. D. Marino, R. C. Webb, J. A. Thompson, Jorge G. Morfin, J. Hylen, R. H. Bernstein, A. Para, M. C. Goodman, M. Ishitsuka, Harvey B Newman, B. R. Becker, D. Bogert, D. J. Koskinen, A. Belias, Juan Pedro Ochoa-Ricoux, J. H. Cobb, T. Durkin, C. James, E. P. Hartouni, D. R. Ward, A. Mislivec, R. J. Nichol, Douglas Wright, Anatael Cabrera, I. Trostin, John Marshall, N. Grossman, T. M. Raufer, D. Bhattacharya, A. M. McGowan, S. K. Kotelnikov, K. Ruddick, E. Grashorn, H. Zheng, J. Hartnell, S. L. Mufson, R. Ospanov, T. C. Nicholls, Q. K. Wu, K. E. Arms, J. Gogos, J. Schneps, C. Rosenfeld, V. A. Tsarev, T. H. Fields, R. P. Litchfield, R. Pittam, Ruben Saakyan, Sacha E Kopp, G. M. Irwin, G. A. Giurgiu, D. Cherdack, R. Gran, G. J. Bock, H. A. Rubin, C. P. Ward, Carlos Escobar, M. V. Frohne, D. Indurthy, P. Schreiner, M. V. Diwan, A. Marchionni, C. Andreopoulos, H. J. Kang, D. E. Reyna, Andrew Blake, R. K. Plunkett, E. Falk Harris, C. D. Moore, Alec Habig, T. Osiecki, A. Sousa, Francisco Yumiceva, G. J. Feldman, W. Smart, J. Urheim, R. Armstrong, Brajesh C Choudhary, Peter D. Barnes, P. Adamson, B. C. Barish, W. P. Oliver, V. Paolone, C. R. Bower, J. L. Thron, E. Tetteh-Lartey, R. Zwaska, J. K. Nelson, R. L. Talaga, D. A. Jensen, D. E. Jaffe, A. J. Culling, E. Beall, H. Ping, D. Drakoulakos, S. Kumaratunga, B. Rebel, M. S. Kim, B. Baller, V. Smirnitsky, Philip Harris, J. A. Musser, A. De Santo, R. H. Milburn, C. White, C. W. Peck, P. J. Litchfield, P. M. Border, Karol Lang, L. Mualem, V. Verebryusov, R. A. Rameika, T. Yang, R. Hatcher, A. R. Erwin, John Derek Chapman, J. R. Meier, G. I. Merzon, N. West, D. S. Ayres, L. Jenner, William L. Barrett, P. Shanahan, B. Bock, W. A. Mann, A. Godley, P. Gouffon, R. Lee, B. Viren, R. Ford, Caleb Smith, J. M. Paley, A. A. Wehmann, N. Tagg, T. Patzak, G.D. Barr, John Miller, Juergen Thomas, AstroParticule et Cosmologie (APC (UMR_7164)), Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3), APC - Neutrinos, Laboratoire de Physique Nucléaire et de Hautes Énergies (LPNHE), Centre National de la Recherche Scientifique (CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Pierre et Marie Curie - Paris 6 (UPMC)-AstroParticule et Cosmologie (APC (UMR_7164)), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), MINOS, Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-AstroParticule et Cosmologie (APC (UMR_7164)), PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Muon, 010308 nuclear & particles physics, Physics::Instrumentation and Detectors, Monte Carlo method, FOS: Physical sciences, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Neutrino detector, MINOS, 0103 physical sciences, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], High Energy Physics::Experiment, Neutrino, 010306 general physics, Super-Kamiokande, Neutrino oscillation, Lepton

Abstract

We found 140 neutrino-induced muons in 854.24 live days in the MINOS far detector. We looked for evidence of neutrino disappearance in this data set by computing the ratio of the number of low momentum muons to the sum of the number of high momentum and unknown momentum muons for both data and Monte Carlo expectation in the absence of neutrino oscillations. The ratio of data and Monte Carlo ratios is consistent with an oscillation signal. A fit to the data for the oscillation parameters excludes the null oscillation hypothesis at the 94% confidence level. We separated the muons by charge sign in both the data and Monte Carlo events and found the ratio of the total number of negative to positive muons in both samples. The ratio of those ratios is a test of CPT conservation. The result is consistent with CPT conservation., 14 pages, 15 figures

Published

2016

18. Active to sterile neutrino mixing limits from neutral-current interactions in MINOS

Author

R. B. Patterson, M. D. Messier, M. Kordosky, Andrew Blake, D. J. Auty, Christopher G. White, A. M. McGowan, R. Toner, D. S. Ayres, J. J. Evans, P. Schreiner, B. Rebel, J. R. Meier, N. Graf, Carlos Escobar, R. Zwaska, R. K. Plunkett, Xian-Rong Huang, M. V. Diwan, Sacha E Kopp, R. Gran, E. Falk, R. Pittam, M. V. Frohne, Matthew L Strait, W. A. Mann, G. M. Irwin, P. Stamoulis, Daniel P Cronin-Hennessy, Joao A B Coelho, Rakesh Sharma, G. J. Feldman, M. Dorman, P. Vahle, S. Cavanaugh, E. Tetteh-Lartey, D. J. Boehnlein, D. Cherdack, A. E. Kreymer, G. F. Pearce, Maury Goodman, J. A. Nowak, J. K. De Jong, M. Bishai, R. A. Gomes, C. Rosenfeld, X. Qiu, P. Lucas, J. Ratchford, C. D. Moore, W. H. Miller, L. Loiacono, H. R. Gallagher, Marvin L Marshak, C. Backhouse, M. Orchanian, S. Phan-Budd, A. Sousa, R. L. Talaga, J. K. Nelson, G. J. Bock, K. Grzelak, M. A. Thomson, D. Naples, P. Adamson, L. Whitehead, Stanley G. Wojcicki, J. Urheim, A. C. Weber, D. A. Harris, P. A. Rodrigues, S. M. S. Kasahara, G. Tinti, J. J. Walding, N. E. Devenish, G. Lefeuvre, S. Childress, D. A. Jensen, Gregory J Pawloski, A. Holin, L. Corwin, P. J. Litchfield, Jorge G. Morfin, N. Mayer, N. Grant, S. L. Mufson, J. A. Musser, C. James, Harvey B Newman, T. Kafka, D. Bogert, G. Tzanakos, T. C. Nicholls, R. Hatcher, R. C. Webb, G. Koizumi, J. Schneps, I. Z. Danko, H. A. Rubin, R. Mehdiyev, W. P. Oliver, D. Torretta, J. Hartnell, P. Gouffon, B. Viren, J. Ilic, S. J. Coleman, J. M. Paley, N. Tagg, G.D. Barr, M. C. Sanchez, David Petyt, Juergen Thomas, T. M. Raufer, S. R. Mishra, R. J. Nichol, Alec Habig, John C. Mitchell, D. E. Jaffe, J. Hylen, A. Himmel, Z. Isvan, L. Mualem, P. Shanahan, and Karol Lang

Subjects

Physics, Sterile neutrino, Particle physics, Physics::Instrumentation and Detectors, High Energy Physics::Phenomenology, General Physics and Astronomy, FOS: Physical sciences, NuMI, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), MINOS, Measurements of neutrino speed, Muon neutrino, High Energy Physics::Experiment, Neutrino, Neutrino oscillation, Lepton

Abstract

Results are reported from a search for active to sterile neutrino oscillations in the MINOS long-baseline experiment, based on the observation of neutral-current neutrino interactions, from an exposure to the NuMI neutrino beam of $7.07\times10^{20}$ protons on target. A total of 802 neutral-current event candidates is observed in the Far Detector, compared to an expected number of $754\pm28\rm{(stat.)}\pm{37}\rm{(syst.)}$ for oscillations among three active flavors. The fraction $f_s$ of disappearing \numu that may transition to $\nu_s$ is found to be less than 22% at the 90% C.L., Comment: 5 pages, 3 tables, 2 figures. Published in Physical Review Letters

Published

2016

19. Limits on Active to Sterile Neutrino Oscillations from Disappearance Searches in the MINOS, Daya Bay, and Bugey-3 Experiments

Author

Rakesh Sharma, S. Childress, Wenju Huo, H. H. Zhang, D. Cao, A. Schreckenberger, N. Graf, C. D. Moore, R. Gran, Carlos Escobar, Simon Blyth, R. K. Plunkett, X. L. Ji, S. Moed Sher, Haosheng Chen, M. Z. Wang, Ming Chung Chu, D. Torretta, W. Hu, G. J. Bock, J. M. Link, N. Poonthottathil, Jen-Chieh Peng, J. K. Xia, J. Lee, R. W. Hackenburg, S. Zeng, X. Qiu, M. Dolgareva, Carl White, Z. Wang, J. Dove, Chun S. J. Pun, C. M. Castromonte, J. Joshi, J. P. Cummings, M. M. Medeiros, Michael Kramer, L. Corwin, W. J. Wu, R. D. McKeown, P. Sail, Shaomin Chen, Jun Cao, Xuefeng Ding, Z. K. Cheng, Z. P. Zhang, H. L. H. Wong, Y. X. Zhang, X. P. Ji, J. Hartnell, P. Lucas, Hanxiong Huang, S. C. Tognini, Rupert Leitner, M. Qi, Changjian Lin, Gregory J Pawloski, J. Park, L. Kang, J. K. C. Leung, Li Zhou, R. Mehdiyev, K. L. Jen, S. H. Kettell, Yaping Cheng, T. Hu, X. B. Ma, R. B. Patterson, Zhijian Zhang, T. Wise, A. B. Balantekin, S. F. Li, C. Li, Lin Yang, S. R. Mishra, C. James, Yanchu Wang, C. Rosenfeld, X. T. Zhang, M. Mooney, Vit Vorobel, K. Treskov, Dmitry V. Naumov, M. Orchanian, H. Y. Ngai, R. L. Gill, Marco Grassi, Miao He, A. E. Kreymer, D. D. Phan, N. Viaux, S. R. Hahn, Kwong Lau, P. Schreiner, Y. L. Chan, R. Toner, B. Z. Hu, R. Hatcher, D. Cronin-Hennessy, G. X. Sun, B. Rebel, H. A. Rubin, S. K. Lin, J. H. C. Lee, T. Kafka, Jinmei Liu, Jing Zhao, Alec Habig, K. Grzelak, Z. Isvan, L. Mualem, X. Y. Ma, J. Y. Xu, Wei Li, W. A. Mann, F. P. An, T. J. Carroll, P. Adamson, Yanfeng Zhang, S. J. Patton, W. Q. Gu, Y. C. Lin, Mengsu Yang, H. R. Gallagher, Maxim Gonchar, D. W. Liu, Minfang Yeh, Y. Malyshkin, A. Perch, A. Radovic, J. Schneps, I. Mitchell, Harvey B Newman, W. Tang, S. M. S. Kasahara, Marvin L Marshak, X. Wang, P. Gouffon, Liangjian Wen, S. De Rijck, R. A. Johnson, A. Holin, Guofu Cao, Guanghua Gong, X. Tian, Alexander Olshevskiy, M. Bishai, K. T. McDonald, S. Jetter, Haoqi Lu, Dejun Li, W. Flanagan, Wei Wang, B. Roskovec, Jiawen Zhang, Zengcai V. Guo, Y. K. Hor, L. Guo, J. Cheng, Chao Zhang, Jianglai Liu, E. T. Worcester, Z. Lv, F. Z. Qi, H. L. Zhuang, E. Falk, Haijun Yang, J. de Arcos, J. Urheim, Guisen Li, J. J. Cherwinka, G. M. Irwin, Zhiyong Zhang, Honghan Gong, Z. Y. Deng, C. E. Tull, N. Y. Wang, Jinjuan Ren, B. Viren, J. H. Cheng, G. J. Feldman, L. S. Littenberg, C. H. Wu, Zhi Ning, I. Anghel, M. A. Thomson, D. Naples, Stanley G. Wojcicki, Li Chang, Y. Xu, E. C. Huang, Karol Lang, Q. W. Zhao, F. Li, B. R. Littlejohn, H. Y. Wei, Yi-Fang Zhao, G. Koizumi, Qingming Ma, V. Pec, R. L. Talaga, J. J. Ling, Yufeng Li, J. O'Connor, J. Hylen, Y. B. Hsiung, R. J. Nichol, W. L. Zhong, M. C. Goodman, M. V. Frohne, T. Kwok, N. Tagg, N. Mayer, J. B. Jiao, R. A. Gomes, M. C. Sanchez, M. V. Diwan, Guey-Lin Lin, Jonathan S. Lu, Z. Ye, R. B. Pahlka, Qinglong Wu, G.D. Barr, Junwei Huang, Leigh H. Whitehead, Kam Biu Luk, Chunjie Wang, M. Y. Gabrielyan, Siew Cheng Wong, Tian Xue, W. R. Cen, R. T. Lei, K. M. Heeger, J. R. Meier, Xin Qian, Juergen Thomas, Y. K. Heng, Z. M. Wang, Q. J. Li, S. V. Cao, J. A. Nowak, Ran Han, Jiaheng Zou, S. Hans, Mengyun Guan, J. A. Musser, Xiao-yan Li, A. Higuera, X. T. Huang, J. M. Paley, K. Whisnant, Zhi-zhong Xing, Joao A B Coelho, Juan Pedro Ochoa-Ricoux, H. R. Band, K. V. Tsang, H. Liang, Yixue Chen, M. Kordosky, Andrew Blake, J. L. Sun, Artem Chukanov, Lawrence Pinsky, A. Timmons, N. Raper, Richard Rosero, J. F. Chang, Changgen Yang, C. Lu, J. L. Xu, L. H. Whitehead, Ning Zhou, Y. Chang, Shanfeng Li, J. J. Evans, M. M. Pfützner, D. E. Jaffe, Y. Nakajima, Yi Chen, R. C. Webb, M. W. Kwok, L. Lebanowski, Y. Y. Ding, D. M. Xia, J. K. De Jong, S. Phan-Budd, A. Sousa, K. K. Kwan, N. E. Devenish, P. J. Litchfield, R. P. Guo, G. Tzanakos, C. L. McGivern, S. Kohn, S. Germani, Warner A. Miller, A. V. Devan, Bing-Lin Young, D. Bogert, A. Aurisano, W. R. Edwards, E. Naumova, D. A. Dwyer, T. J. Langford, H. M. Steiner, P. Vahle, Y. Q. Ma, Patrick Huber, Shengxin Lin, D. A. Martinez Caicedo, J. K. Nelson, R. G. Wang, D. A. Jensen, Liang Zhan, M. D. Messier, A. C. Weber, X. C. Ruan, Qingmin Zhang, Q. Y. Chen, Jim Napolitano, Xiaohu Guo, M. T. Yang, Hao Pan, C. W. Loh, Z. Y. Yu, Zhibing Li, M. Ye, D. Taychenachev, G. Hussain, J. Todd, P. Jaffke, and R. Chen

Subjects

Physics, Particle physics, Sterile neutrino, Liquid Scintillator Neutrino Detector, 010308 nuclear & particles physics, Physics::Instrumentation and Detectors, High Energy Physics::Phenomenology, General Physics and Astronomy, FOS: Physical sciences, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, MiniBooNE, High Energy Physics - Experiment (hep-ex), MINOS, 0103 physical sciences, Measurements of neutrino speed, High Energy Physics::Experiment, Neutrino, 010306 general physics, Neutrino oscillation, Electron neutrino, QC

Abstract

Searches for a light sterile neutrino have been performed independently by the MINOS and the Daya Bay experiments using the muon (anti)neutrino and electron antineutrino disappearance channels, respectively. In this Letter, results from both experiments are combined with those from the Bugey-3 reactor neutrino experiment to constrain oscillations into light sterile neutrinos. The three experiments are sensitive to complementary regions of parameter space, enabling the combined analysis to probe regions allowed by the LSND and MiniBooNE experiments in a minimally extended four-neutrino flavor framework. Stringent limits on $\sin^2 2\theta_{\mu e}$ are set over 6 orders of magnitude in the sterile mass-squared splitting $\Delta m^2_{41}$. The sterile-neutrino mixing phase space allowed by the LSND and MiniBooNE experiments is excluded for $\Delta m^2_{41} < 0.8$ eV$^2$ at 95% CL$_s$., Comment: 8 pages, 4 figures, published in Physical Review Letters. Data release found at http://www-numi.fnal.gov/PublicInfo/forscientists.html and at https://wiki.bnl.gov/dayabay/index.php?title=Daya_Bay%27s_Sterile_Neutrino_Results_in_2016

Published

2016

20. Measurement of the Multiple-Muon Charge Ratio in the MINOS Far Detector

Author

X. Tian, M. L. Marshak, A. C. Weber, G. M. Irwin, H. A. Rubin, C. White, M. Kordosky, Andrew Blake, M. A. Thomson, D. Naples, Stanley G. Wojcicki, G. J. Feldman, A. Timmons, J. O'Connor, J. Hylen, M. C. Goodman, R. B. Patterson, R. Hatcher, L. Corwin, S. Moed Sher, L. H. Whitehead, R. Mehdiyev, J. R. Meier, J. Schneps, I. Anghel, M. V. Diwan, A. Schreckenberger, S. C. Tognini, S. R. Mishra, W. H. Miller, M. D. Messier, Carlos Escobar, R. K. Plunkett, N. Graf, R. Gran, J. A. Nowak, N. Tagg, X. Qiu, P. Schreiner, D. D. Phan, M. M. Medeiros, P. J. Litchfield, A. Holin, G.D. Barr, Junwei Huang, S. Phan-Budd, C. L. McGivern, J. Todd, A. Sousa, M. Bishai, N. E. Devenish, W. A. Mann, T. Kafka, Juergen Thomas, G. Tzanakos, D. Cronin-Hennessy, E. Falk, M. Orchanian, G. Koizumi, P. Gouffon, Z. Isvan, K. Grzelak, R. Chen, Rakesh Sharma, R. J. Nichol, L. Mualem, Joao A B Coelho, B. Viren, S. Childress, N. Mayer, S. Germani, C. D. Moore, R. L. Talaga, A. V. Devan, P. Vahle, Leigh H. Whitehead, D. Torretta, P. Lucas, Alec Habig, J. Hartnell, S. R. Hahn, C. M. Castromonte, J. K. Nelson, P. Sail, D. Bogert, D. A. Jensen, Karol Lang, A. E. Kreymer, M. V. Frohne, H. R. Gallagher, A. Aurisano, R. C. Webb, S. M. S. Kasahara, J. K. De Jong, A. Radovic, N. Poonthottathil, S. V. Cao, A. Perch, J. M. Paley, J. J. Evans, M. M. Pfützner, J. Urheim, J. A. Musser, T. J. Carroll, Harvey B Newman, M. Gabrielyan, R. Zwaska, C. Rosenfeld, P. Adamson, R. A. Gomes, Gregory J Pawloski, C. James, R. Toner, B. Rebel, G. J. Bock, W. Flanagan, S. De Rijck, M. C. Sanchez, and R. B. Pahlka

Subjects

Physics, Particle physics, Muon, Physics - Instrumentation and Detectors, 010308 nuclear & particles physics, Physics::Instrumentation and Detectors, Detector, FOS: Physical sciences, Charge (physics), Instrumentation and Detectors (physics.ins-det), 01 natural sciences, Magnetic field, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), MINOS, 0103 physical sciences, Muon flux, High Energy Physics::Experiment, 010306 general physics, Independent data, QC

Abstract

The charge ratio, $R_\mu = N_{\mu^+}/N_{\mu^-}$, for cosmogenic multiple-muon events observed at an under- ground depth of 2070 mwe has been measured using the magnetized MINOS Far Detector. The multiple-muon events, recorded nearly continuously from August 2003 until April 2012, comprise two independent data sets imaged with opposite magnetic field polarities, the comparison of which allows the systematic uncertainties of the measurement to be minimized. The multiple-muon charge ratio is determined to be $R_\mu = 1.104 \pm 0.006 {\rm \,(stat.)} ^{+0.009}_{-0.010} {\rm \,(syst.)} $. This measurement complements previous determinations of single-muon and multiple-muon charge ratios at underground sites and serves to constrain models of cosmic ray interactions at TeV energies., Comment: 10 pages, 2 figures

Published

2016

21. The NuMI neutrino beam

Author

J. Urheim, David Petyt, S. Moed Sher, S. Phan-Budd, A. Sousa, Francisco Yumiceva, R. L. Talaga, N. E. Devenish, P. J. Litchfield, S. R. Mishra, M.L. Wong-Squires, J. A. Musser, S. Avvakumov, R. Reilly, M. Olsen, William L. Barrett, T. Yang, D. E. Jaffe, G. Tzanakos, R. H. Milburn, J. Hylen, B. Viren, S. C. Tognini, G. Koizumi, Niki Saoulidou, W. A. Mann, S. Murgia, J. K. Nelson, Maury Goodman, B. Baller, A. Perch, D. Michael, C. M. Castromonte, S. Childress, J. Johnstone, J. Biggs, R. J. Nichol, Alec Habig, P. Schreiner, D. A. Jensen, M. M. Medeiros, M. A. Thomson, K. Vaziri, Stanley G. Wojcicki, J. P. Cravens, R. H. Bernstein, A. Para, A. V. Devan, J. J. Evans, M. M. Pfützner, P. Shanahan, A. Holin, D. Crane, H. R. Gallagher, N. Tagg, Christopher G. White, R. C. Webb, J. A. Thompson, E. Falk, A. Radovic, C. Rosenfeld, D. A. Harris, M. P. Andrews, M. C. Sanchez, R. B. Pahlka, Brajesh C Choudhary, E. A. Peterson, R. Ford, Leigh H. Whitehead, N. Poonthottathil, A. C. Weber, A. R. Erwin, G.D. Barr, Junwei Huang, L. Loiacono, J. Schneps, D. Bogert, D. S. Ayres, R. Hatcher, K. Bourkland, L. H. Whitehead, J. K. De Jong, J.H. Cobb, Karol Lang, G. Vogel, Harvey B Newman, R. Andrews, P. Adamson, D. J. Harding, D. Pushka, A. Marchionni, Scott Osprey, X. Tian, I. Anghel, I. Trostin, Gregory J Pawloski, R. A. Rameika, John Miller, S. M. S. Kasahara, M. V. Diwan, Jorge G. Morfin, Juergen Thomas, N. Mayer, Ahmed Ibrahim, S. V. Cao, A. Aurisano, G. M. Irwin, C. James, Kevin Anderson, G. J. Feldman, J. R. Meier, N. Graf, R. Webber, Caleb Smith, J. M. Paley, W. Smart, A. A. Wehmann, D. Cronin-Hennessy, A. Stefanik, J. A. Nowak, D. Tinsley, P. Gouffon, R. Mehdiyev, P. Vahle, R. A. Gomes, T. Patzak, G. Tassotto, D. J. Boehnlein, T. H. Fields, C. Laughton, E. Villegas, L. Sauer, R. Zwaska, D. Naples, S. Hays, J. O׳Connor, M. D. Messier, C. L. McGivern, D. Indurthy, Rakesh Sharma, J. Ratchford, C. D. Moore, Z. Isvan, L. Mualem, W. H. Miller, G. J. Bock, D. Torretta, Sacha E Kopp, R. Gran, L. Corwin, S. L. Mufson, G. Lefeuvre, V. Zarucheisky, V. Bocean, T. Kafka, M. Bishai, M. Orchanian, K. Grzelak, M. V. Frohne, P. Prieto, J. Hartnell, B. C. Barish, R. Ducar, Philip Harris, H. A. Rubin, R. B. Patterson, K. Ruddick, Joao A B Coelho, V. Garkusha, D. Augustine, Ž Pavlović, D. Schoo, A. E. Kreymer, P. Lucas, W. P. Oliver, Marvin L Marshak, Ken Heller, M. J. Murtagh, M. Kordosky, S. R. Hahn, Andrew Blake, N. Grossman, A. Timmons, A. Schreckenberger, Carlos Escobar, R. K. Plunkett, X. Qiu, R. Toner, B. Rebel, AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP), Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7), AstroParticule et Cosmologie ( APC - UMR 7164 ), Centre National de la Recherche Scientifique ( CNRS ) -Institut National de Physique Nucléaire et de Physique des Particules du CNRS ( IN2P3 ) -Observatoire de Paris-Université Paris Diderot - Paris 7 ( UPD7 ) -Commissariat à l'énergie atomique et aux énergies alternatives ( CEA ), and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité)

Subjects

Accelerator Physics (physics.acc-ph), Target, Nuclear and High Energy Physics, Particle physics, beam monitoring, Physics::Instrumentation and Detectors, [PHYS.PHYS.PHYS-ACC-PH]Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph], FOS: Physical sciences, beam transport, neutrino: beam, Neutrino beam, 7. Clean energy, 01 natural sciences, NuMI, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), beam: alignment, Long Baseline, [ PHYS.HEXP ] Physics [physics]/High Energy Physics - Experiment [hep-ex], 0103 physical sciences, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], hardware, Fermilab, [ PHYS.PHYS.PHYS-ACC-PH ] Physics [physics]/Physics [physics]/Accelerator Physics [physics.acc-ph], Neutrinos, 010306 general physics, Instrumentation, activity report, Physics, 010308 nuclear & particles physics, Monitoring system, Beam, Main injector, Main Injector, Physics::Accelerator Physics, Physics - Accelerator Physics, High Energy Physics::Experiment, Neutrino, Beam (structure), performance

Abstract

International audience; This paper describes the hardware and operations of the Neutrinos at the Main Injector (NuMI) beam at Fermilab. It elaborates on the design considerations for the beam as a whole and for individual elements. The most important design details of individual components are described. Beam monitoring systems and procedures, including the tuning and alignment of the beam and NuMI long-term performance, are also discussed.

Published

2016

22. Observation in the MINOS far detector of the shadowing of cosmic rays by the sun and moon

Author

Xian-Rong Huang, T.C. Nicholls, Mcd Sanchez, R. A. Gomes, V. K. Semenov, J. K. Nelson, S. R. Mishra, P. Vahle, S. Cavanaugh, R. J. Nichol, M. V. Diwan, D. J. Boehnlein, T. M. Raufer, John Marshall, D. A. Jensen, A. Holin, C. Backhouse, G. M. Irwin, T. Yang, Alec Habig, R. Zwaska, P. Gouffon, G. J. Feldman, D. Bogert, C. Rosenfeld, M. D. Messier, P. Adamson, L. Whitehead, S. M. S. Kasahara, Karol Lang, S. Budd, Christopher G. White, R. Toner, D. G. Michael, B. Rebel, Gregory J Pawloski, J. Ilic, Harvey B Newman, J. L. Thron, A. Himmel, Z. Isvan, L. Mualem, C. James, E. Falk, G. J. Bock, E. A. Peterson, M. Dorman, D. Cherdack, V.A. Ryabov, R. Hatcher, P. A. Rodrigues, C. Andreopoulos, G. Lefeuvre, M. A. Thomson, D. Naples, P. Shanahan, L. Loiacono, T. Kafka, P. Lucas, Stanley G. Wojcicki, R. P. Litchfield, N. Grant, J. Hylen, M. C. Goodman, J. R. Meier, N. Tagg, J. Schneps, G.D. Barr, I. Z. Danko, G.F. Pearce, J. J. Evans, Juergen Thomas, Carlos Escobar, S. J. Coleman, R. Mehdiyev, Warner A. Miller, J. M. Paley, R. K. Plunkett, B. Viren, R. L. Talaga, A. Sousa, N. E. Devenish, P. J. Litchfield, J. K. De Jong, J.H. Cobb, P. Schreiner, R. C. Webb, E. Grashorn, J. Urheim, C. R. Bower, Philip Harris, J. A. Musser, A. Godley, R. Pittam, B. C. Choudhary, M. V. Frohne, H. A. Rubin, R. B. Patterson, M. Bishai, S. Childress, W. P. Oliver, A. M. McGowan, A. C. Weber, J. Ratchford, C. D. Moore, Douglas Wright, William L. Barrett, L. Corwin, S. L. Mufson, B. Bock, M. Orchanian, A. E. Kreymer, Marvin L Marshak, Z. Krahn, D. E. Jaffe, G. Tinti, N. Mayer, M. Kordosky, Andrew Blake, W. A. Mann, John C. Mitchell, G. Tzanakos, Matthew L Strait, K. Grzelak, G. Koizumi, Joao A B Coelho, Sacha E Kopp, J. Reichenbacher, R. Gran, J. Hartnell, Daniel P Cronin-Hennessy, D. S. Ayres, H. R. Gallagher, and D. A. Harris

Subjects

High Energy Astrophysical Phenomena (astro-ph.HE), Physics, Muon, Detector, FOS: Physical sciences, Astronomy, Astronomy and Astrophysics, Cosmic ray, Astrophysics, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), Astrophysics - Solar and Stellar Astrophysics, MINOS, Celestial coordinate system, Physics::Space Physics, Shadow, High Energy Physics::Experiment, Angular resolution, Astrophysics::Earth and Planetary Astrophysics, Interplanetary magnetic field, Astrophysics - High Energy Astrophysical Phenomena, Solar and Stellar Astrophysics (astro-ph.SR)

Abstract

The shadowing of cosmic ray primaries by the the moon and sun was observed by the MINOS far detector at a depth of \unit[2070]{mwe} using 83.54 million cosmic ray muons accumulated over 1857.91 live-days. The shadow of the moon was detected at the \unit[5.6]{$\sigma$} level and the shadow of the sun at the \unit[3.8]{$\sigma$} level using a log-likelihood search in celestial coordinates. The moon shadow was used to quantify the absolute astrophysical pointing of the detector to be 0.17\pm 0.12^\circ. Hints of Interplanetary Magnetic Field effects were observed in both the sun and moon shadow., Comment: Submitted to AstroParticle Physics

Published

2011

23. Precision measurement of the speed of propagation of neutrinos using the MINOS detectors

Author

B. Fonville, L. Mualem, R. B. Patterson, S.R. Jefferts, S. R. Hahn, Philip D Adamson, R. Toner, B. Rebel, K. Lang, G. J. Bock, J. K. de Jong, M. Bishai, W. H. Miller, S. C. Tognini, Ed Powers, S. Moed Sher, M. D. Messier, V. Zhang, Z. Isvan, A. McKinley, P. J. Litchfield, H. R. Gallagher, Andrew Blake, J. Hylen, N. Tagg, G. M. Irwin, K. Ridl, S. Phan-Budd, A. Sousa, A. Timmons, G.D. Barr, Junwei Huang, Carlos Escobar, R. L. Talaga, T. Kafka, R. B. Pahlka, G. J. Feldman, C. Rosenfeld, J. Hirschauer, R. K. Plunkett, M. V. Frohne, N. E. Devenish, A. E. Kreymer, W. A. Mann, A. Holin, J. Schneps, A. Perch, Demetrios Matsakis, Marvin L Marshak, S. R. Mishra, R. A. Gomes, Thomas E. Parker, R. J. Nichol, P. Vahle, X. Qiu, Juergen Thomas, L. H. Whitehead, S. V. Cao, J. J. Evans, M. C. Sanchez, I. Anghel, P. Gouffon, D. Bogert, G. Koizumi, J. K. Nelson, R. Zwaska, M. Orchanian, Harvey B Newman, R. Mehdiyev, Leigh H. Whitehead, N. Mayer, D. A. Jensen, Alec Habig, Neil Ashby, Gregory J Pawloski, N. Poonthottathil, J. M. Paley, K. Grzelak, C. James, R. Gran, A. V. Devan, D. Cronin-Hennessy, C.D. Moore, J. A. Nowak, Joao A B Coelho, Maury Goodman, M. A. Thomson, B. Viren, Stanley G. Wojcicki, Rakesh Sharma, J. O'Connor, Adam Aurisano, A. C. Weber, M. V. Diwan, S. M S Kasahara, L. Corwin, A. Radovic, M. M. Medeiros, S. Mitchell, R. Bumgarner, A. Schreckenberger, E. Falk, J. R. Meier, N. Graf, Stefania Romisch, R. C. Webb, J. Urheim, R. Hatcher, J. A. Musser, C. White, J. L. Wright, X. Tian, D. Torretta, M. Kordosky, J. Hartnell, H. A. Rubin, P. Schreiner, C. M. Castromonte, S. Childress, C. L. McGivern, D. Naples, and P. Lucas

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Physics - Instrumentation and Detectors, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Detector, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), Speed of light (cellular automaton), NuMI, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), MINOS, Measurements of neutrino speed, Physics::Accelerator Physics, High Energy Physics::Experiment, Fermilab, Neutrino, QC, Beam (structure)

Abstract

We report a two-detector measurement of the propagation speed of neutrinos over a baseline of 734 km. The measurement was made with the NuMI beam at Fermilab between the near and far MINOS detectors. The fractional difference between the neutrino speed and the speed of light is determined to be $(v/c-1) = (1.0 \pm 1.1) \times 10^{-6}$, consistent with relativistic neutrinos., 10 pages, six figures, after refereeing re-submitted to PRD

Published

2015

24. Observation of seasonal variation of atmospheric multiple-muon events in the MINOS Near and Far Detectors

Author

A. Schreckenberger, M. C. Sanchez, R. B. Pahlka, Carlos Escobar, S. Phan-Budd, A. Sousa, M. Bishai, N. E. Devenish, R. K. Plunkett, A. Holin, D. Cronin-Hennessy, M. V. Diwan, Warner A. Miller, A. V. Devan, M. Orchanian, J. Urheim, P. Gouffon, J. K. De Jong, K. Grzelak, X. Qiu, G. Koizumi, B. Viren, S. R. Mishra, S. Moed Sher, P. Schreiner, R. L. Talaga, N. Tagg, R. Toner, D. Torretta, Joao A B Coelho, B. Rebel, G.D. Barr, Junwei Huang, R. Zwaska, J. A. Nowak, W. A. Mann, A. Perch, J. K. Nelson, E. Falk, J. Hartnell, Scott Osprey, Gregory J Pawloski, P. Lucas, A. E. Kreymer, D. A. Jensen, Juergen Thomas, C. James, R. Gran, H. A. Rubin, S. V. Cao, H. R. Gallagher, M. D. Messier, R. A. Gomes, J. Schneps, Marvin L Marshak, J. J. Evans, J. A. Musser, S. R. Hahn, Christopher G. White, J. M. Paley, N. Mayer, L. H. Whitehead, C. Rosenfeld, G. J. Bock, I. Anghel, P. J. Litchfield, Karol Lang, P. Adamson, Harvey B Newman, Z. Isvan, L. Mualem, N. Poonthottathil, S. M. S. Kasahara, T. Kafka, X. Tian, R. C. Webb, C. L. McGivern, R. J. Nichol, R. Mehdiyev, J. R. Meier, M. A. Thomson, D. Naples, N. Graf, M. Kordosky, C. M. Castromonte, G. M. Irwin, Andrew Blake, Alec Habig, A. C. Weber, A. Timmons, Stanley G. Wojcicki, G. J. Feldman, R. Hatcher, J. O'Connor, J. Hylen, A. Radovic, M. C. Goodman, P. Vahle, D. Bogert, A. Aurisano, Leigh H. Whitehead, S. C. Tognini, R. B. Patterson, L. Corwin, M. V. Frohne, Rakesh Sharma, S. Childress, C. D. Moore, and M. M. Medeiros

Subjects

Physics, Nuclear and High Energy Physics, Muon, Physics::Instrumentation and Detectors, Rate modulation, Detector, FOS: Physical sciences, Cosmic ray, Astrophysics, Seasonality, medicine.disease, High Energy Physics - Experiment, High Energy Physics - Experiment (hep-ex), Overburden, MINOS, medicine, Physics::Accelerator Physics, High Energy Physics::Experiment, QC, Physics::Atmospheric and Oceanic Physics

Abstract

We report the first observation of seasonal modulations in the rates of cosmic ray multiple-muon events at two underground sites, the MINOS Near Detector with an overburden of 225 mwe, and the MINOS Far Detector site at 2100 mwe. At the deeper site, multiple-muon events with muons separated by more than 8 m exhibit a seasonal rate that peaks during the summer, similar to that of single-muon events. In contrast and unexpectedly, the rate of multiple-muon events with muons separated by less than 5-8 m, and the rate of multiple-muon events in the smaller, shallower Near Detector, exhibit a seasonal rate modulation that peaks in the winter.

Published

2015

25. Study of quasielastic scattering using charged-currentνμ-iron interactions in the MINOS near detector

Author

N. Tagg, G.D. Barr, Junwei Huang, Juergen Thomas, A. Radovic, M. Bishai, D. Bogert, R. Zwaska, M. Orchanian, Rakesh Sharma, A. Aurisano, S. Childress, K. Grzelak, S. Moed Sher, R. J. Nichol, N. Mayer, C. D. Moore, J. K. De Jong, A. Holin, J. K. Nelson, Leigh H. Whitehead, P. Vahle, L. Corwin, D. A. Jensen, D. Cronin-Hennessy, C. M. Castromonte, R. A. Gomes, M. V. Diwan, G. J. Bock, H. A. Rubin, M. V. Frohne, P. Gouffon, R. Hatcher, B. Viren, A. Perch, C. Rosenfeld, S. C. Tognini, C. L. McGivern, J. J. Walding, Gregory J Pawloski, J. J. Evans, M. M. Pfützner, M. M. Medeiros, H. R. Gallagher, R. L. Talaga, S. V. Cao, C. James, S. Phan-Budd, P. Adamson, A. Sousa, D. Torretta, M. D. Messier, R. B. Patterson, S. M. S. Kasahara, J. A. Nowak, J. Hartnell, R. Gran, Christopher G. White, N. E. Devenish, J. M. Paley, L. H. Whitehead, M. A. Thomson, A. C. Weber, P. J. Litchfield, D. Naples, Stanley G. Wojcicki, Harvey B Newman, J. R. Meier, Karol Lang, N. Graf, J. O'Connor, J. Hylen, P. Schreiner, M. C. Sanchez, M. C. Goodman, X. Tian, R. B. Pahlka, S. R. Mishra, Z. Isvan, L. Mualem, R. C. Webb, A. Schreckenberger, G. Koizumi, G. M. Irwin, Warner A. Miller, E. Falk, Alec Habig, J. Schneps, A. V. Devan, G. J. Feldman, R. Toner, I. Anghel, B. Rebel, J. Urheim, W. A. Mann, T. Kafka, N. Poonthottathil, J. A. Musser, R. Mehdiyev, A. E. Kreymer, Marvin L Marshak, P. Lucas, M. Kordosky, S. R. Hahn, Andrew Blake, Carlos Escobar, A. Timmons, R. K. Plunkett, X. Qiu, and Joao A B Coelho

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Quasielastic scattering, Monte Carlo method, Form factor (quantum field theory), Resonance (particle physics), Nuclear physics, Baryon, MINOS, High Energy Physics::Experiment, Neutron, Nuclear Experiment, Charged current

Abstract

Kinematic distributions from an inclusive sample of 1.41×10^6 charged-current ν_μ interactions on iron, obtained using the MINOS near detector exposed to a wide-band beam with peak flux at 3 GeV, are compared to a conventional treatment of neutrino scattering within a Fermi gas nucleus. Results are used to guide the selection of a subsample enriched in quasielastic ν_μFe interactions, containing an estimated 123,000 quasielastic events of incident energies 1

Published

2015

26. New results on a search for a 33.9 MeV/c2 neutral particle from π+ decay in the NOMAD experiment

Author

T. Weisse, J.-P. Mendiburu, K. Benslama, H. Zaccone, Alessandro Cardini, H. Pessard, Marco Fraternali, P. Rathouit, C. Joseph, Fr Pastore, B. A. Popov, P. Hurst, V. Flaminio, M. T. Tran, C. Lachaud, F. J. P. Soler, L. Di Lella, Giacomo Graziani, G. Bassompierre, S. Boyd, M. Valdata-Nappi, Marco Laveder, J.M. Gaillard, Roberto Ferrari, B. Lakić, G. N. Taylor, D. Steele, E. Gangler, J. Dumarchez, M. C. Gonzalez-Garcia, K. Schahmaneche, F. Juget, J. A. Hernando, Malcolm Ellis, M. Kirsanov, Th. Stolarczyk, A.-M. Touchard, O. Klimov, R. Cousins, Bruce Yabsley, J.J. Gómez-Cadenas, X. Méchain, J. Rico, A. Marchionni, J.-M. Vieira, Valerio Vercesi, A. Cervera-Villanueva, M. E. Sevior, Dmitry V. Naumov, Kevin Varvell, C. Nguyen-Mau, A. Placci, L. Camilleri, R. Petti, Stefano Lacaprara, A. Kovzelev, Fergus Wilson, T. Del Prete, Caroline Poulsen, E. do Couto e Silva, F. Salvatore, Vyacheslav Valuev, A. De Santo, E. Pennacchio, N. Hyett, S.A. Bunyatov, J. Bouchez, F. Vannucci, M. Gouanère, H. Degaudenzi, G. J. Feldman, J-P. Meyer, S. N. Tovey, I. Bird, A. Lupi, G. F. Moorhead, A. Grant, D. Hubbard, P. Zuccon, J.-M. Levy, G. Collazuol, Mario Stipčević, Didier Ferrere, G. Conforto, Barry Blumenfeld, L.J. Winton, A. Baldisseri, Claus Gößling, J. Kokkonen, G. Vidal-Sitjes, Sergei Gninenko, A. Krasnoperov, P. Nédélec, M. Mezzetto, T. Vinogradova, Nathalie Besson, D. Sillou, J. Ulrichs, Kai Zuber, E. Tsesmelis, Caren Hagner, T. Fazio, André Rubbia, A. Godley, G. Sozzi, A. Guglielmi, S.R. Mishra, Chiara Roda, L. Linssen, D. Pollmann, E. Iacopini, P. Astier, D. Autiero, F.V. Weber, A. Letessier-Selvon, D. Daniels, Giacomo Polesello, M. Tareb-Reyes, Vincenzo Cavasinni, J. Long, Domizia Orestano, F. Martelli, M. Contalbrigo, T. Dignan, U. Stiegler, A. Lanza, J. Gosset, D. Gibin, A. Polyarush, Achim Geiser, L. S. Peak, M. Veltri, Antonio Bueno, A. N. Toropin, L. La Rotonda, M. Baldo-Ceolin, M. Banner, D. Geppert, P.W. Cattaneo, Ante Ljubičić, F. Bobisut, N.V. Krasnikov, C. Conta, B. Schmidt, Yu. Nefedov, L. Vacavant, and V. Tereshchenko

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Neutrino decay, Neutrino mixing, Branching fraction, Nuclear physics, Pion, Pi, Direct search, Anomaly (physics), Neutral particle, Event (particle physics), KARMEN

Abstract

We report on a direct search in NOMAD for a new 33.9 MeV/c^2 neutral particle (X) produced in pion decay in flight, pi-->mu_X followed by the decay X -->nu e^+e^-. Both decays are postulated to occur to explain the time anomaly observed by the KARMEN experiment. From the analysis of the data collected during the 1996?1998 runs with 4.1×10^19 protons on target, a single candidate event consistent with background expectations was found. The search is sensitive to a pion branching ratio BR(pi-->muX >3.7×10^-15, significantly smaller than previous experimental limits.

Published

2002

27. Combined Analysis ofνμDisappearance andνμ→νeAppearance in MINOS Using Accelerator and Atmospheric Neutrinos

Author

P. Adamson, I. Anghel, A. Aurisano, G. Barr, M. Bishai, A. Blake, G. J. Bock, D. Bogert, S. V. Cao, C. M. Castromonte, D. Cherdack, S. Childress, J. A. B. Coelho, L. Corwin, D. Cronin-Hennessy, J. K. de Jong, A. V. Devan, N. E. Devenish, M. V. Diwan, C. O. Escobar, J. J. Evans, E. Falk, G. J. Feldman, M. V. Frohne, H. R. Gallagher, R. A. Gomes, M. C. Goodman, P. Gouffon, N. Graf, R. Gran, K. Grzelak, A. Habig, S. R. Hahn, J. Hartnell, R. Hatcher, A. Himmel, A. Holin, J. Huang, J. Hylen, G. M. Irwin, Z. Isvan, C. James, D. Jensen, T. Kafka, S. M. S. Kasahara, G. Koizumi, M. Kordosky, A. Kreymer, K. Lang, J. Ling, P. J. Litchfield, P. Lucas, W. A. Mann, M. L. Marshak, N. Mayer, C. McGivern, M. M. Medeiros, R. Mehdiyev, J. R. Meier, M. D. Messier, D. G. Michael, W. H. Miller, S. R. Mishra, S. Moed Sher, C. D. Moore, L. Mualem, J. Musser, D. Naples, J. K. Nelson, H. B. Newman, R. J. Nichol, J. A. Nowak, J. O’Connor, M. Orchanian, R. B. Pahlka, J. Paley, R. B. Patterson, G. Pawloski, A. Perch, S. Phan-Budd, R. K. Plunkett, N. Poonthottathil, X. Qiu, A. Radovic, B. Rebel, C. Rosenfeld, H. A. Rubin, M. C. Sanchez, J. Schneps, A. Schreckenberger, P. Schreiner, R. Sharma, A. Sousa, N. Tagg, R. L. Talaga, J. Thomas, M. A. Thomson, X. Tian, A. Timmons, S. C. Tognini, R. Toner, D. Torretta, G. Tzanakos, J. Urheim, P. Vahle, B. Viren, A. Weber, R. C. Webb, C. White, L. Whitehead, L. H. Whitehead, S. G. Wojcicki, and R. Zwaska

Subjects

Nuclear physics, Physics, Particle physics, Formalism (philosophy of mathematics), MINOS, General Physics and Astronomy, CP violation, Neutrino, Neutrino oscillation, Mass hierarchy

Abstract

We report on a new analysis of neutrino oscillations in MINOS using the complete set of accelerator and atmospheric data. The analysis combines the ν_μ disappearance and ν_e appearance data using the three-flavor formalism. We measure |Δm^2_(32)|=[2.28–2.46]×10^(−3) eV^2 (68% C.L.) and sin^2θ_(23)=0.35–0.65 (90% C.L.) in the normal hierarchy, and |Δm^2_(32)|=[2.32–2.53]×10^(−3) eV^2 (68% C.L.) and sin2θ23=0.34–0.67 (90% C.L.) in the inverted hierarchy. The data also constrain δ_(CP), the θ_(23) octant degeneracy and the mass hierarchy; we disfavor 36% (11%) of this three-parameter space at 68% (90%) C.L.

Published

2014

28. Combined analysis of νμ disappearance and νμ→νe appearance in MINOS using accelerator and atmospheric neutrinos

Author

P, Adamson, I, Anghel, A, Aurisano, G, Barr, M, Bishai, A, Blake, G J, Bock, D, Bogert, S V, Cao, C M, Castromonte, D, Cherdack, S, Childress, J A B, Coelho, L, Corwin, D, Cronin-Hennessy, J K, de Jong, A V, Devan, N E, Devenish, M V, Diwan, C O, Escobar, J J, Evans, E, Falk, G J, Feldman, M V, Frohne, H R, Gallagher, R A, Gomes, M C, Goodman, P, Gouffon, N, Graf, R, Gran, K, Grzelak, A, Habig, S R, Hahn, J, Hartnell, R, Hatcher, A, Himmel, A, Holin, J, Huang, J, Hylen, G M, Irwin, Z, Isvan, C, James, D, Jensen, T, Kafka, S M S, Kasahara, G, Koizumi, M, Kordosky, A, Kreymer, K, Lang, J, Ling, P J, Litchfield, P, Lucas, W A, Mann, M L, Marshak, N, Mayer, C, McGivern, M M, Medeiros, R, Mehdiyev, J R, Meier, M D, Messier, D G, Michael, W H, Miller, S R, Mishra, S, Moed Sher, C D, Moore, L, Mualem, J, Musser, D, Naples, J K, Nelson, H B, Newman, R J, Nichol, J A, Nowak, J, O'Connor, M, Orchanian, R B, Pahlka, J, Paley, R B, Patterson, G, Pawloski, A, Perch, S, Phan-Budd, R K, Plunkett, N, Poonthottathil, X, Qiu, A, Radovic, B, Rebel, C, Rosenfeld, H A, Rubin, M C, Sanchez, J, Schneps, A, Schreckenberger, P, Schreiner, R, Sharma, A, Sousa, N, Tagg, R L, Talaga, J, Thomas, M A, Thomson, X, Tian, A, Timmons, S C, Tognini, R, Toner, D, Torretta, G, Tzanakos, J, Urheim, P, Vahle, B, Viren, A, Weber, R C, Webb, C, White, L, Whitehead, L H, Whitehead, S G, Wojcicki, and R, Zwaska

Abstract

We report on a new analysis of neutrino oscillations in MINOS using the complete set of accelerator and atmospheric data. The analysis combines the ν(μ) disappearance and ν(e) appearance data using the three-flavor formalism. We measure |Δm(32)(2)| = [2.28-2.46] × 10(-3) eV(2) (68% C.L.) and sin(2)θ(23) = 0.35-0.65 (90% C.L.) in the normal hierarchy, and |Δm(32)(2)| = [2.32-2.53] × 10(-3) eV(2) (68% C.L.) and sin(2)θ(23) = 0.34-0.67 (90% C.L.) in the inverted hierarchy. The data also constrain δ(CP), the θ(23} octant degeneracy and the mass hierarchy; we disfavor 36% (11%) of this three-parameter space at 68% (90%) C.L.

Published

2014

29. Measurement of the polarization in νμ charged current interactions in the NOMAD experiment

Author

J. Long, J. Gosset, J.-P. Mendiburu, J. A. Hernando, Alessandro Cardini, D. Gibin, A. Letessier-Selvon, P. Hurst, L. S. Peak, T. Vinogradova, A. Placci, J.M. Gaillard, Barry Blumenfeld, L. Di Lella, D. Steele, D. Daniels, Giacomo Polesello, M. Tareb-Reyes, Th. Stolarczyk, D. Kustov, A. Polyarush, Kevin Varvell, M. E. Sevior, A. Cervera-Villanueva, A. De Santo, T. Dignan, C. Conta, M. Gouanere, G. Vidal-Sitjes, M. Kirsanov, Achim Geiser, Didier Ferrere, B. Schmidt, Antonio Bueno, R. Petti, A. Marchionni, R. Cousins, Fergus Wilson, O.L. Klimov, J.-M. Vieira, A. N. Toropin, A.-M. Touchard, T. Weisse, André Rubbia, G. Conforto, A. Grant, P. Nedelec, L. Camilleri, G. Bassompierre, M. Mezzetto, Caroline Poulsen, Artem Chukanov, E. Iacopini, S. Boyd, F. Martelli, B. Lakić, M. Veltri, G. Collazuol, Mario Stipčević, J. Kokkonen, G. N. Taylor, Sergei Gninenko, Kai Zuber, Malcolm Ellis, A. Kovzelev, Valentin Kuznetsov, Vincenzo Cavasinni, E. do Couto e Silva, J-P. Meyer, B. A. Popov, V. Flaminio, L.J. Winton, S.A. Bunyatov, Nathalie Besson, F. J. P. Soler, Roberto Ferrari, J. Ulrichs, Yu. Nefedov, L. Vacavant, J.J. Gómez-Cadenas, L. La Rotonda, G. Sozzi, I. Bird, A. Baldisseri, J. Bouchez, U. Stiegler, D. Geppert, P.W. Cattaneo, Ante Ljubičić, Bruce Yabsley, X. Méchain, A. Guglielmi, A. Lupi, P. Riemann, Claus Gößling, Alexey Krasnoperov, F. Salvatore, E. Tsesmelis, Caren Hagner, M. Baldo-Ceolin, M. Banner, A. Lanza, Marco Fraternali, T. Schmidt, A. Godley, M. T. Tran, E. Gangler, Valerio Vercesi, S.R. Mishra, M. Valdata-Nappi, Frédéric Juget, Chiara Roda, Vyacheslav Valuev, Dmitry V. Naumov, P. Astier, J. Rico, F. Vannucci, D. Autiero, E. Pennacchio, N. Hyett, D. Pollmann, D. Hubbard, P. Zuccon, H. Zaccone, T. Fazio, C. Joseph, H. Pessard, Domizia Orestano, Marco Laveder, L. Linssen, J. Dumarchez, M. Contalbrigo, F.V. Weber, J. M. Levy, H. Degaudenzi, G. J. Feldman, G. F. Moorhead, C. Lachaud, Giacomo Graziani, K. Schahmaneche, S. Lacaprara, V. Tereshchenko, F. Bobisut, C. Nguyen-Mau, T. Del Prete, D. Sillou, S.N. Tovey, and Fr Pastore

Subjects

Physics, Nuclear and High Energy Physics, Angular momentum, 010308 nuclear & particles physics, Elementary particle, Polarization (waves), 7. Clean energy, 01 natural sciences, Nuclear physics, 0103 physical sciences, Bubble chamber, High Energy Physics::Experiment, Nuclear Experiment, 010306 general physics, Nucleon, Charged current, Lepton, Boson

Abstract

The Λ polarization in νμ charged current interactions has been measured in the NOMAD experiment. The event sample (8087 reconstructed Λ 's) is more than an order of magnitude larger than that of previous bubble chamber experiments, while the quality of event reconstruction is comparable. We observe negative polarization along the W -boson direction which is enhanced in the target fragmentation region: Px(xF 0)=−0.09±0.06(stat)±0.03(sys) . These results provide a test of different models describing the nucleon spin composition and the spin transfer mechanisms. A significant transverse polarization (in the direction orthogonal to the Λ production plane) has been observed for the first time in a neutrino experiment: Py=−0.22±0.03(stat)±0.01(sys) . The dependence of the absolute value of Py on the Λ transverse momentum with respect to the hadronic jet direction is in qualitative agreement with the results from unpolarized hadron–hadron experiments.

Published

2001

30. Measurement of the polarization in charged current interactions in the NOMAD experiment

Author

T. Weisse, D. Sillou, F. Salvatore, Vyacheslav Valuev, A. Godley, A. Guglielmi, H. Zaccone, G. J. Feldman, G. F. Moorhead, C. Gssling, B. Schmidt, T. Fazio, O.L. Klimov, Laurent Vacavant, S. Tereshchenko, J. M. Levy, C. Joseph, Michel Gouanère, A. Placci, S.R. Mishra, F. F. Wilson, F. Bobisut, D. Autiero, Frédéric Juget, U. Stiegler, C. Nguyen-Mau, J. Long, E. Tsesmelis, Caren Hagner, R. Petti, D. Geppert, P.W. Cattaneo, Ante Ljubičić, Caroline Poulsen, A. De Santo, A. Polyarush, J.M. Gaillard, P. Rathouit, Achim Geiser, S.A. Bunyatov, J. Kokkonen, Marco Laveder, D. Hubbard, P. Zuccon, J.-P. Mendiburu, Artem Chukanov, J. A. Hernando, I. Bird, A. Lanza, K. Benslama, T. Vinogradova, R. Cousins, Alessandro Cardini, Marco Fraternali, L. La Rotonda, T. Schmidt, A. Lupi, J.-M. Vieira, D. Kustov, Didier Ferrere, L. Linssen, F. Vannucci, M. T. Tran, T. Dignan, T. Del Prete, L. S. Peak, A. M. Touchard, M. Contalbrigo, Roberto Ferrari, Valerio Vercesi, F.V. Weber, Nathalie Besson, C. Conta, M. Kirsanov, E. Gangler, G. Collazuol, Mario Stipčević, Malcolm Ellis, M. Valdata-Nappi, Sergei Gninenko, Antonio Bueno, A. N. Toropin, V. Flaminio, Domizia Orestano, P. Hurst, Kevin Varvell, Dmitry V. Naumov, G. Polesello, M. Banner, F. J. P. Soler, A. Baldisseri, P. Riemann, A. Letessier-Selvon, Alastair Grant, Bruce Yabsley, X. Méchain, André Rubbia, H. Degaudenzi, L. Di Lella, S. B. Boyd, J. Gosset, H. Pessard, P. Nedelec, Chiara Roda, D. Daniels, J.J. Gómez-Cadenas, D. Steele, G. Conforto, Barry Blumenfeld, J. Rico, C. Lachaud, A. Cervera-Villanueva, N. Hyett, D. Pollmann, G. Bassompierre, E. Iacopini, M. Tareb-Reyes, A. Marchionni, Valentin Kuznetsov, B. A. Popov, S. Lacaprara, E. Pennacchio, D. Gibin, K. Schahmaneche, E Silva E. Do Couto, J-P. Meyer, M. E. Sevior, M. Veltri, J. Dumarchez, L. Camilleri, L.J. Winton, F. Martelli, G. Graziani, B. Lakić, Vincenzo Cavasinni, G. N. Taylor, J. Ulrichs, J. Bouchez, Yu. Nefedov, G. Sozzi, A. Kovzelev, T. Stolarczyk, M. Mezzetto, Kai Zuber, P. Astier, Alexey Krasnoperov, M. Baldo-Ceolin, S.N. Tovey, and Fr Pastore

Subjects

Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, High Energy Physics::Phenomenology, Hadron, Polarization (waves), Lambda, 01 natural sciences, Nuclear physics, 0103 physical sciences, Bubble chamber, High Energy Physics::Experiment, Neutrino, Nuclear Experiment, 010306 general physics, Nucleon, Order of magnitude, Charged current

Abstract

The $\Lambda$ polarization in $\nu_\mu$ charged current interactions has been measured in the NOMAD experiment. The event sample (8087 reconstructed $\Lambda$'s) is more than an order of magnitude larger than that of previous bubble chamber experiments, while the quality of event reconstruction is comparable. We observe negative polarization along the $W$-boson direction which is enhanced in the target fragmentation region: $P_x (x_F 0) = -0.21 \pm 0.04 \mbox{(stat)} \pm 0.02 \mbox{(sys)}$. In the current fragmentation region we find $P_x (x_F 0) = -0.09 \pm 0.06 \mbox{(stat)} \pm 0.03 \mbox{(sys)}$. These results provide a test of different models describing the nucleon spin composition and the spin transfer mechanisms. A significant transverse polarization (in the direction orthogonal to the $\Lambda$ production plane) has been observed for the first time in a neutrino experiment: $P_y = -0.22 \pm 0.03 \mbox{(stat)} \pm 0.01 \mbox{(sys)}$. The dependence of the absolute value of $P_y$ on the $\Lambda$ transverse momentum with respect to the hadronic jet direction is in qualitative agreement with the results from unpolarized hadron-hadron experiments.

Published

2000

31. Limit on νe→ντ oscillations from the NOMAD experiment

Author

J. A. Hernando, D. Steele, H. Pessard, Roberto Ferrari, M. Steininger, C. Lachaud, Malcolm Ellis, J.J. Gómez-Cadenas, Bruce Yabsley, A. Cervera-Villanueva, L. Camilleri, X. Méchain, J. Kokkonen, F. Martelli, T. Weisse, A. Krasnoperov, S. Bunyatov, Achim Geiser, A. N. Toropin, Th. Stolarczyk, E. Pennacchio, M. Mezzetto, D. Sillou, P. Rathouit, Giacomo Graziani, N. Hyett, A. Letessier-Selvon, S.N. Tovey, Kai Zuber, Fr Pastore, E. do Couto e Silva, M. E. Sevior, M. Veltri, G. Bassompierre, D. Daniels, M. Gouanère, M. Tareb-Reyes, J. M. Gaillard, T. Vinogradova, A. Godley, Valentin Kuznetsov, J. Dumarchez, S. Boyd, J. Long, D. Geppert, Caroline Poulsen, J-P. Meyer, L. Linssen, P.W. Cattaneo, Ante Ljubičić, B. Lakić, L.J. Winton, U. Stiegler, Marco Fraternali, G. N. Taylor, J. Ulrichs, Chiara Roda, D. Pollmann, H. Degaudenzi, J.-P. Mendiburu, G. J. Feldman, F. Salvatore, G. F. Moorhead, G. Sozzi, Valerio Vercesi, Kevin Varvell, G. Polesello, F. V. Weber, Alessandro Cardini, Domizia Orestano, Claus Gößling, J. Gosset, O. Klimov, A. Grant, M. Baldo-Ceolin, D. Gibin, H. Zaccone, C. Nguyen-Mau, T. Del Prete, P. Hurst, A. Polayrush, K. Benslama, Vyacheslav Valuev, F. Vannucci, C. Joseph, A. Guglielmi, L. Di Lella, F. Juget, A. Lanza, M. Valdata-Nappi, M. T. Tran, T. Dignan, A. Pluquet, L.S. Peak, M. Kirsanov, G. Ballocchi, D. Hubbard, P. Zuccon, K. Schahmaneche, L. La Rotonda, S. R. Mishra, M. Banner, Marco Laveder, E. Gangler, M. Contalbrigo, A. Bueno, Nathalie Besson, P. Riemann, R. Cousins, J.-M. Vieira, I. Bird, J. Rico, A. Marchionni, A. Kovzelev, André Rubbia, Barry Blumenfeld, E. Iacopini, Vincenzo Cavasinni, D. Autiero, V. Flaminio, F. J. P. Soler, Didier Ferrere, Sergei Gninenko, P. Astier, E. Tsesmelis, Caren Hagner, T. Schmidt, J. Bouchez, A. Lupi, A. Baldisseri, S. Lacaprara, Yu. Nefedov, L. Vacavant, A. Placci, F. Bobisut, A. De Santo, C. Conta, B. Schmidt, G. Conforto, A. M. Touchard, P. Nédélec, J. M. Levy, R. Petti, Fergus Wilson, G. Collazuol, Mario Stipčević, and B. A. Popov

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, 010308 nuclear & particles physics, 0103 physical sciences, Context (language use), Limit (mathematics), Neutrino beam, 010306 general physics, Neutrino oscillation, 01 natural sciences, Charged current

Abstract

In the context of a two-flavour approximation we reinterpret the published NOMAD limit on ν μ → ν τ oscillations in terms of ν e → ν τ oscillations. At 90% C.L. we obtain sin 2 2θ eτ 5.2×10 −2 for large Δm 2 , while for sin 2 2 θ eτ =1 the confidence region includes Δm 2 2 / c 4 .

Published

2000

32. A more sensitive search for νμ→ντ oscillations in NOMAD

Author

F. Vannucci, V. Flaminio, Giacomo Graziani, F. J. P. Soler, O. Klimov, I.J. Donnelly, M. Banner, Caroline Poulsen, C. Nguyen-Mau, T. Del Prete, J. Dumarchez, Domizia Orestano, K. Benslama, André Rubbia, E. Pennacchio, N. Hyett, A. Lanza, E. Tsesmelis, Caren Hagner, T. Weisse, E. Iacopini, T. Vinogradova, M. T. Tran, I. Bird, P. Astier, Th. Stolarczyk, S. Bunyatov, F. Salvatore, B.D Yabsley, M. K. Vo, Vincenzo Cavasinni, Nathalie Besson, G. Renzoni, T. Schmidt, Antonio Bueno, A. N. Toropin, D. Autiero, P. Hurst, S.N. Tovey, G. J. Feldman, L. La Rotonda, Fr Pastore, A. Krasnoperov, E. Gangler, Didier Ferrere, Marco Fraternali, L. Di Lella, P. Rathouit, G. F. Moorhead, J. Kokkonen, J. Long, A Gandolfo, A. Kovzelev, A. Baldisseri, M. E. Sevior, M. Contalbrigo, A. M. Touchard, P. Nédélec, C. Conta, B. Schmidt, M. Kirsanov, D. Geppert, A. Godley, A. Guglielmi, J. A. Hernando, P.W. Cattaneo, Ante Ljubičić, Roberto Renò, E Manola-Poggioli, P. Riemann, J.-P. Mendiburu, L. Linssen, A. Cervera-Villanueva, G. Collazuol, Mario Stipčević, G. Conforto, S.R. Mishra, T. Dignan, Alessandro Cardini, A. Placci, E. do Couto e Silva, R. Petti, H. Pessard, U. Stiegler, J. Bouchez, Valerio Vercesi, Chiara Roda, A. De Santo, M. Veltri, J. M. Levy, F. Bobisut, B Popov, D. Verkindt, A. Lupi, L. Camilleri, Kevin Varvell, Stefano Lacaprara, A. Grant, J. Rico, A. Marchionni, Fergus Wilson, H. Zaccone, D. Pollmann, Malcolm Ellis, Roberto Ferrari, Vyacheslav Valuev, S.A. Volkov, C. Joseph, J.-M. Gaillard, Barry Blumenfeld, G. Ballocchi, J.J. Gómez-Cadenas, R. Cousins, Marco Laveder, D. Hubbard, P. Zuccon, K. Schahmaneche, M. Baldo-Ceolin, X. Méchain, F.V. Weber, J.-M. Vieira, Yu. Nefedov, L. Vacavant, J. Gosset, D. Gibin, T. Fazio, Achim Geiser, L.S. Peak, M Valdata-Nappi, M. Gouanère, G. Bassompierre, M. Mezzetto, D. Sillou, Kai Zuber, S. Boyd, B. Lakić, G. N. Taylor, Claus Gößling, D. Steele, L. Mossuz, F. Juget, M. Steininger, H Degaudenzi, C. Lachaud, G Segneri, V. Tereshchenko, A. Pluquet, F. Martelli, S. N. Gninenko, A. Letessier-Selvon, D. Daniels, Giacomo Polesello, M. Tareb-Reyes, Valentin Kuznetsov, J-P. Meyer, L.J. Winton, J. Ulrichs, and G. Sozzi

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, Oscillation, Scattering, High Energy Physics::Experiment, Sensitivity (control systems), Neutrino, Neutrino beam, Neutrino oscillation, Charged current, Confidence region

Abstract

With additional data and improved algorithms, we have enhanced the sensitivity of our appearance search for $\numunutau$ oscillations in the NOMAD detector in the CERN-SPS wide-band neutrino beam. The search uses kinematic criteria to identify $\nutau$ charged current interactions followed by decay of the $\tau^-$ to one of several decay modes. Our ``blind'' analyses of deep-inelastic scattering data taken in 1996 and 1997, combined with consistent reanalyses of previously reported 1995 data, yield no oscillation signal. For the two-family oscillation scenario, we present the contour outlining a 90\% C.L. confidence region in the $\sin^22\theta_{\mu \tau} - \Delta m^2$ plane. At large $\Delta m^2$, the confidence region includes $\sin^22\theta_{\mu\tau}\ \ 1.2\times10^{-3}$ (a limit 3.5 times more stringent than in our previous publication), while at $\sin^22\theta_{\mu \tau}=1$, the confidence region includes $\Delta m^2 1.2$ eV$^2$/$c^4$.

Published

1999

33. Precision measurement of scaled momentum, charge multiplicity, and thrust in νμN and interactions

Author

H. Degaudenzi, G. J. Feldman, G. F. Moorhead, Valentin Kuznetsov, F. Salvatore, F. Vannucci, M. K. Vo, Corrado Angelini, J. Long, L.J. Winton, B. A. Popov, G. Collazuol, Mario Stipčević, J. M. Levy, J. Ulrichs, D. Verkindt, S.A. Bunyatov, P. Rathouit, M. Banner, Fergus Wilson, G. Sozzi, Alexey Krasnoperov, B. Schmidt, E. Manola-Poggioli, T. Dignan, J. Altegoer, Caroline Poulsen, M. Baldo-Ceolin, S. Basa, J. Kokkonen, R. Cousins, Nathalie Besson, G. Renzoni, T. Vinogradova, L. Linssen, Achim Geiser, Giacomo Graziani, J.-M. Vieira, M. E. Sevior, A. Baldisseri, Valerio Vercesi, S. N. Gninenko, André Rubbia, O.L. Klimov, P. Hurst, Marco Fraternali, T. Stolarczyk, M. Serrano, Kevin Varvell, A. Grant, H. Pessard, P. Nedelec, P. Astier, L. Camilleri, A. Kovzelev, S. Tereshchenko, D. Autiero, J. Dumarchez, Vyacheslav Valuev, E. do Couto e Silva, J. Hernando, D. Hubbard, P. Zuccon, Malcolm Ellis, Chiara Roda, J.J. Gómez-Cadenas, E. Iacopini, C. Lazzeroni, D. Sillou, A. Guglielmi, Vincenzo Cavasinni, A. Letessier-Selvon, D. Daniels, Giacomo Polesello, M. Tareb-Reyes, F. Bobisut, S.A. Volkov, L. Di Lella, Roberto Ferrari, M. Kirsanov, Bruce Yabsley, X. Méchain, F.V. Weber, M. Veltri, V. Uros, E. Pennacchio, N. Hyett, D. Pollmann, I. Bird, V. Vacavant, Michel Gouanère, F. Martelli, M. Valdata-Nappi, A. Godley, J-P. Meyer, D. Nordmann, A. Cervera-Villanueva, K. Benslama, L. La Rotonda, H. Zaccone, M. Werlen, S.R. Mishra, A. Lanza, U. Stiegler, S. Lacaprara, C. Joseph, Yu. Nefedov, T. Fazio, G. Ballocchi, A. Pluquet, C. Conta, Frédéric Juget, Marco Laveder, Barry Blumenfeld, M. T. Tran, Domizia Orestano, E. Gangler, J. Gosset, R. Petti, G. Conforto, D. Gibin, K. Schahmaneche, M. Contalbrigo, J.-P. Mendiburu, J. P. Perroud, G. Bassompierre, Alessandro Cardini, S. Boyd, G. N. Taylor, V. Flaminio, P. Galumian, F. J. P. Soler, D. Geppert, P.W. Cattaneo, Ante Ljubičić, A. Placci, L. S. Peak, A. De Santo, Antonio Bueno, Fr Pastore, A. N. Toropin, I.J. Donnelly, C. Nguyen-Mau, T. Del Prete, M. Mezzetto, Kai Zuber, S. N. Tovey, A. M. Touchard, J. Bouchez, D. Steele, L. Mossuz, A. Lupi, J. M. Gaillard, Didier Ferrere, A. Marchionni, M. Steininger, Claus Gößling, E. Tsesmelis, Caren Hagner, and T. Weisse

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Overline, Coherence effect, Electronic document, Thrust, Multiplicity (chemistry), Charged current

Abstract

By focusing on the notion of electronic document, we differentiate two evolutions which are useful to distinct titles: on the one hand are the documents, which have value of reference. Its administrator will take care to preserve its integrity and its context of production which is strongly significant. On the other hand are resources, evolutionary elements by nature, which the user must be able to appropriate and who must thus be placed at the disposal so that the production is erased, to focus on a logic of exploitation and service.

Published

1999

34. A search for ν→ν oscillations using the NOMAD detector

Author

M. Contalbrigo, T. Fazio, V. Flaminio, F. J. P. Soler, K. Benslama, T. Weisse, L.S. Peak, A. Lanza, E. do Couto e Silva, R. Petti, André Rubbia, F. Bobisut, D. Scannicchio, F. Juget, J-P. Meyer, L. La Rotonda, H. Pessard, E. Manola-Poggioli, M. Mezzetto, L.J. Winton, V. Valuev, M. T. Tran, D. Sillou, Kai Zuber, E. Iacopini, R. Cousins, J. Ulrichs, Kevin Varvell, G. Collazuol, Mario Stipčević, L. Linssen, A. Cervera-Villanueva, J.-M. Vieira, A. Grant, V. Tereshchenko, P. Rathouit, D. Pollmann, A. Pluquet, Giacomo Graziani, Didier Ferrere, G. Sozzi, F.V. Weber, D. Verkindt, P. Steffen, G. Conforto, Barry Blumenfeld, Th. Stolarczyk, Vincenzo Cavasinni, J. Gosset, A. Baldisseri, A. Marchionni, J. Altegoer, S.A. Volkov, E. Gangler, D. Kekez, P. Nédélec, Roberto Ferrari, S. N. Gninenko, J.-M. Gaillard, J. Long, M. Gouanère, J. M. Levy, M. E. Sevior, Marco Fraternali, Claus Gößling, A. Placci, M. Veltri, A. Letessier-Selvon, D. Gibin, G. Bassompierre, A. De Santo, D. Autiero, Caroline Poulsen, D. Daniels, E. Tsesmelis, J.-P. Mendiburu, Corrado Angelini, V. Uros, M. Valdata-Nappi, D. Steele, Bruce Yabsley, X. Méchain, Stefano Lacaprara, L. Mossuz, Giacomo Polesello, Fergus Wilson, Alessandro Cardini, M. Tareb-Reyes, B. G. Pope, M. Baldo-Ceolin, S. Boyd, D. Geppert, Achim Geiser, M. Steininger, H. Degaudenzi, T. Dignan, G. J. Feldman, P.W. Cattaneo, Ante Ljubičić, V.E. Kuznetsov, G. N. Taylor, S. Basa, J. Bouchez, G. F. Moorhead, A. Lupi, B. Khomenko, A. M. Touchard, S. Bunyatov, F. Salvatore, L. Camilleri, Yu. Nefedov, J. Kokkonen, M. K. Vo, A. Kovzelev, P. Hurst, T. Vinogradova, B. Popov, L. Vacavant, L. Di Lella, J. Hernando, D. Hubbard, K. Schahmaneche, C. Hagner, F. Martelli, U. Stiegler, C. Conta, S.N. Tovey, M. Kirsanov, I. Bird, P. Astier, Fr Pastore, Domizia Orestano, H. Plothow-Besch, Antonio Bueno, A. N. Toropin, F. Vannucci, J. P. Perroud, A. Sconza, P. Galumian, M. Banner, J.J. Gómez-Cadenas, A. Castera, O. Klimov, I.J. Donnelly, C. Nguyen-Mau, T. Del Prete, E. Pennacchio, N. Hyett, G. Fumagalli, M. Werlen, S.R. Mishra, Chiara Roda, B. Schmidt, Valerio Vercesi, M. Serrano, H. Zaccone, C. Joseph, G. Ballocchi, Marco Laveder, Nathalie Besson, G. Renzoni, C. Lazzeroni, A. Guglielmi, and J. Dumarchez

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, Oscillation, Detector, High Energy Physics::Experiment, Detection theory, Wide band, Neutrino oscillation, Signal, Charged current, Beam (structure)

Abstract

NOMAD is a neutrino oscillation experiment designed to search for ντ appearance in the CERN-SPS wide band νμ beam. Signal detection relies on the identification of ντ charged current interactions using kinematic criteria. The analysis of the 1995 data sample yields no oscillation signal. Combining all studied τ decay modes, a limit of sin 2 2θ μτ 4.2×10 −3 is obtained for large Δm2 at the 90% confidence level.

Published

1998

35. Unified approach to the classical statistical analysis of small signals

Author

G. J. Feldman and R. Cousins

Subjects

Physics, Nuclear and High Energy Physics, FOS: Physical sciences, Poisson distribution, Confidence interval, Robust confidence intervals, High Energy Physics - Experiment, Bayesian statistics, High Energy Physics - Experiment (hep-ex), symbols.namesake, Frequentist inference, Physics - Data Analysis, Statistics and Probability, symbols, Credible interval, Confidence distribution, Applied mathematics, Data Analysis, Statistics and Probability (physics.data-an), CDF-based nonparametric confidence interval

Abstract

We give a classical confidence belt construction which unifies the treatment of upper confidence limits for null results and two-sided confidence intervals for non-null results. The unified treatment solves a problem (apparently not previously recognized) that the choice of upper limit or two-sided intervals leads to intervals which are not confidence intervals if the choice is based on the data. We apply the construction to two related problems which have recently been a battle-ground between classical and Bayesian statistics: Poisson processes with background, and Gaussian errors with a bounded physical region. In contrast with the usual classical construction for upper limits, our construction avoids unphysical confidence intervals. In contrast with some popular Bayesian intervals, our intervals eliminate conservatism (frequentist coverage greater than the stated confidence) in the Gaussian case and reduce it to a level dictated by discreteness in the Poisson case. We generalize the method in order to apply it to analysis of experiments searching for neutrino oscillations. We show that this technique both gives correct coverage and is powerful, while other classical techniques that have been used by neutrino oscillation search experiments fail one or both of these criteria., Comment: 40 pages, 15 figures. Changes 15-Dec-99 to agree more closely with published version. A few small changes, plus the two substantive changes we made in proof back in 1998: 1) The definition of "sensitivity" in Sec. V(C). It was inconsistent with our actual definition in Sec. VI. 2) "Note added in proof" at end of the Conclusion

Published

1998

36. Search for flavor-changing non-standard neutrino interactions by MINOS

Author

S. Moed Sher, S. R. Mishra, M. C. Sanchez, R. B. Pahlka, P. Schreiner, A. Schreckenberger, Rakesh Sharma, A. Holin, E. Falk, S. Childress, J. K. De Jong, L. H. Whitehead, M. V. Frohne, Harvey B Newman, C. D. Moore, M. D. Messier, M. Kordosky, W. A. Mann, M. A. Thomson, H. R. Gallagher, P. Gouffon, D. Naples, Andrew Blake, Stanley G. Wojcicki, D. Bogert, G. M. Irwin, B. Viren, Christopher G. White, G. J. Feldman, J. Hylen, R. L. Talaga, G. Tzanakos, D. Cherdack, M. C. Goodman, P. Lucas, L. Corwin, S. L. Mufson, N. Tagg, J. J. Evans, G.D. Barr, R. C. Webb, G. Koizumi, J. Schneps, Karol Lang, J. K. Nelson, A. C. Weber, Joao A B Coelho, Juergen Thomas, S. V. Cao, Warner A. Miller, M. Mathis, P. Vahle, D. A. Jensen, M. V. Diwan, A. V. Devan, A. E. Kreymer, J. M. Paley, R. Gran, Marvin L Marshak, Gregory J Pawloski, R. B. Patterson, S. Phan-Budd, M. M. Medeiros, A. Radovic, Daniel P Cronin-Hennessy, Carlos Escobar, C. James, R. K. Plunkett, A. Sousa, N. E. Devenish, P. J. Litchfield, J. A. Nowak, R. J. Nichol, T. Kafka, Alec Habig, N. Mayer, M. Bishai, X. Qiu, M. Orchanian, K. Grzelak, A. Himmel, Z. Isvan, L. Mualem, J. Urheim, D. Torretta, J. A. Musser, J. Hartnell, H. A. Rubin, W. P. Oliver, R. A. Gomes, C. Rosenfeld, P. Adamson, S. M. S. Kasahara, R. Zwaska, G. J. Bock, R. Toner, B. Rebel, R. Hatcher, R. Mehdiyev, J. R. Meier, and N. Graf

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Physics::Instrumentation and Detectors, Astrophysics::High Energy Astrophysical Phenomena, Solar neutrino, High Energy Physics::Phenomenology, FOS: Physical sciences, Solar neutrino problem, NuMI, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), MINOS, Measurements of neutrino speed, High Energy Physics::Experiment, Fermilab, Neutrino, Neutrino oscillation

Abstract

We report new constraints on flavor-changing non-standard neutrino interactions from the MINOS experiment, in which neutrino versus antineutrino interactions can be distinguished on an event-by-event basis. We analyzed a combined set of beam neutrino and antineutrino data from the well-understood NuMI beam, and found no evidence for deviations from standard neutrino mixing. The observed energy spectra constrain the non-standard neutrino interactions parameter to the range -0.20

Published

2013

37. Measurement of Neutrino and Antineutrino Oscillations Using Beam and Atmospheric Data in MINOS

Author

Carlos Escobar, M. V. Diwan, A. Holin, R. K. Plunkett, S. R. Mishra, X. Qiu, M. C. Sanchez, C. M. Castromonte, S. Childress, D. Torretta, C. Backhouse, Gregory J Pawloski, P. Schreiner, C. James, Harvey B Newman, J. A. Nowak, P. Lucas, J. Hartnell, A. Schreckenberger, W. H. Miller, R. Toner, L. Corwin, S. Moed Sher, R. Mehdiyev, Maury Goodman, R. B. Pahlka, R. Zwaska, S. C. Tognini, L. Mualem, B. Rebel, G. M. Irwin, S. R. Hahn, H. R. Gallagher, E. Falk, G. J. Feldman, M. A. Thomson, J. Urheim, D. Naples, S. V. Cao, T. Kafka, Stanley G. Wojcicki, M. Mathis, A. E. Kreymer, R. Sharma, G. Tzanakos, R. A. Gomes, C. D. Moore, H. A. Rubin, A. Radovic, M. V. Frohne, J. A. Musser, J. O'Connor, C. Rosenfeld, G. Koizumi, J. Hylen, Marvin L Marshak, W. A. Mann, R. Hatcher, J. J. Evans, J. M. Paley, N. Mayer, P. Adamson, L. Whitehead, A. C. Weber, M. M. Medeiros, M. Bishai, S. M. S. Kasahara, W. P. Oliver, Karol Lang, G. J. Bock, R. C. Webb, D. G. Michael, R. J. Nichol, Alec Habig, A. Himmel, Z. Isvan, B. Viren, I. Anghel, M. Kordosky, J. R. Meier, J. K. De Jong, M. Orchanian, N. Graf, R. B. Patterson, Andrew Blake, N. Tagg, K. Grzelak, A. M. McGowan, G.D. Barr, Juergen Thomas, G. Tinti, Joao A B Coelho, R. Gran, Daniel P Cronin-Hennessy, P. Vahle, A. V. Devan, P. J. Litchfield, S. Phan-Budd, A. Sousa, R. L. Talaga, N. E. Devenish, P. Gouffon, L. H. Whitehead, D. Bogert, M. D. Messier, Christopher G. White, J. K. Nelson, D. A. Jensen, and J. Schneps

Subjects

Physics, Nuclear physics, High Energy Physics - Experiment (hep-ex), MINOS, Oscillation, General Physics and Astronomy, FOS: Physical sciences, Neutrino, Neutrino oscillation, Beam (structure), High Energy Physics - Experiment

Abstract

We report measurements of oscillation parameters from $\nu_{mu}$ and $\bar{\nu}_{\mu}$ disappearance using beam and atmospheric data from MINOS. The data comprise exposures of \unit[$10.71 \times 10^{20}$]{protons on target (POT)} in the $\nu_{\mu}$-dominated beam, $\unit[3.36\times10^{20}]{POT}}$ in the $\bar{\nu}_{\mu}$-enhanced beam, and 37.88 kton-years of atmospheric neutrinos. Assuming identical $\nu$ and $\bar{\nu}$ oscillation parameters, we measure \mbox{$|\Delta m^2}| = \unit[2.41^{+0.09}_{-0.10}) \times 10^{-3}]{eV^{2}}$} and $\sin^{2}/!/left(2\theta \right) = 0.950^{+0.035}_{-0.036}$. Allowing independent $\nu$ and $\bar{\nu}$ oscillations, we measure antineutrino parameters of $|\Delta \bar{m}^2| = \unit[(2.50 ^{+0.23}_{-0.25}) \times 10^{-3}]{eV^{2}}$ and $\sin^{2}/!/left(2\bar{\theta} \right) = 0.97^{+0.03}_{-0.08}$, with minimal change to the neutrino parameters., Comment: 5 pages, 3 figures

Published

2013

38. A precision measurement of charm dimuon production in neutrino interactions from the NOMAD experiment

Author

K. Schahmaneche, C.T. Kullenberg, P. Hurst, L. Di Lella, J.-P. Mendiburu, M. Valdata-Nappi, Alessandro Cardini, J.J. Kim, R. Challis, S.A. Bunyatov, J. A. Hernando, V. Tereshchenko, Roberto Ferrari, A. Baldisseri, Th. Stolarczyk, G. Collazuol, Mario Stipčević, A. Cervera-Villanueva, C. Lachaud, Giacomo Graziani, K. Benslama, T. Weisse, B. A. Popov, M. E. Sevior, A. Lanza, F. Bobisut, A. Marchionni, M. T. Tran, Bruce Yabsley, X. Méchain, E. Gangler, H. Zaccone, C. Joseph, F. Salvatore, P. Astier, Caroline Poulsen, Domizia Orestano, Mikhail Kirsanov, R. Cousins, M. Mezzetto, M. Contalbrigo, D. Autiero, R. Petti, Stefano Lacaprara, Marco Laveder, Kai Zuber, Fergus Wilson, S.N. Tovey, J.-M. Vieira, J. M. Levy, Sergey A. Kulagin, A.M. Scott, A. Sconza, Yu. Nefedov, L. Vacavant, L. La Rotonda, Frédéric Juget, S. R. Mishra, Chiara Roda, E. Pennacchio, O.L. Klimov, H. Degaudenzi, G. J. Feldman, Fr Pastore, N. Hyett, D. Pollmann, G. F. Moorhead, D. Geppert, Luca Rebuffi, P. Riemann, Artem Chukanov, V. V. Lyubushkin, E. do Couto e Silva, P.W. Cattaneo, Ante Ljubičić, Didier Ferrere, Kevin Varvell, Barry Blumenfeld, Alexey Krasnoperov, J. Kokkonen, M. Baldo-Ceolin, M. Banner, H. Duyang, C. Conta, C. Nguyen-Mau, T. Del Prete, B. Schmidt, Sergei Gninenko, J. Dumarchez, A. Grant, H. Pessard, A. Godley, P. Nedelec, Valerio Vercesi, M. Veltri, Dmitry V. Naumov, G. Conforto, J. Long, Claus Gößling, Vyacheslav Valuev, J. Libo, Malcolm Ellis, F. Vannucci, Alexander Toropin, L. S. Peak, E. Tsesmelis, Caren Hagner, T. Schmidt, P. Zuccon, A. Kovzelev, Antonio Bueno, J. Bouchez, O. Samoylov, J.J. Gómez-Cadenas, A. Lupi, A. Placci, D. Steele, A. De Santo, L. Linssen, Marco Fraternali, Sergey Alekhin, V. Flaminio, F. J. P. Soler, F.V. Weber, T. Vinogradova, André Rubbia, E. Iacopini, Vincenzo Cavasinni, A.-M. Touchard, A. Polyarush, Achim Geiser, J. Gosset, D. Gibin, Q. Wu, U. Stiegler, G. Bassompierre, J. Rico, S. Boyd, B. Lakić, G. N. Taylor, J.M. Gaillard, J-P. Meyer, L. Camilleri, L.J. Winton, J. Ulrichs, D. Sillou, G. Sozzi, A. Guglielmi, I. Bird, X.C. Tian, Nathalie Besson, G. Vidal-Sitjes, Michel Gouanère, F. Martelli, N. Kent, A. Letessier-Selvon, Giacomo Polesello, M. Tareb-Reyes, Orestano, Domizia, National Science Foundation (US), Alfred P. Sloan Foundation, Australian Research Council, Federal Ministry of Education and Research (Germany), Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Nucléaire et de Hautes Énergies (LPNHE), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), and NOMAD

Subjects

Nuclear and High Energy Physics, Strange quark, Particle physics, Charm production, strange quark content of the nucleon, dimuon charm production, FOS: Physical sciences, Strange quark content of the nucleon, Dimuon charm production, Neutrino interactions, 01 natural sciences, Charm quark, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), 0103 physical sciences, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Charm (quantum number), 010306 general physics, Charged current, Physics, Quantum chromodynamics, 010308 nuclear & particles physics, Física, Deep inelastic scattering, 3. Good health, Neutrino, Nucleon, Particle Physics - Experiment

Abstract

We present our new measurement of the cross-section for charm dimuon production in neutrino iron interactions based upon the full statistics collected by the NOMAD experiment. After background subtraction we observe 15 344 charm dimuon events, providing the largest sample currently available. The analysis exploits the large inclusive charged current sample - about 9 x 10(6) events after all analysis cuts - and the high resolution NOMAD detector to constrain the total systematic uncertainty on the ratio of charm dimuon to inclusive Charged Current (CC) cross-sections to similar to 2%. We also perform a fit to the NOMAD data to extract the charm production parameters and the strange quark sea content of the nucleon within the NLO QCD approximation. We obtain a value of m(c)(m(c)) = 1.159 +/- 0.075 GeV/c(2) for the running mass of the charm quark in the (MS) over bar scheme and a strange quark sea suppression factor of kappa(s) = 0.591 +/- 0.019 at Q(2) = 20 GeV2/c(2)., We extend our grateful appreciations to the CERN SPS staff for the magnificent performance of the neutrino beam. The experiment was supported by the following agencies: ARC and DIISR of Australia, IN2P3 and CEA of France, BMBF of Germany, INFN of Italy, JINR and INR of Russia, FNSRS of Switzerland, DOE, NSF, Sloan, and Cottrell Foundations of USA, and VP Research Office of the University of South Carolina. This work was partially supported by the University of South Carolina, by the DOE grant DE-FG02-95ER40910, by the Russian Federal grant 02.740.11.5220 and MK-432.2013.2, and JINR grant 13-201-01.

Published

2013

39. Search for Squarks and Gluinos via Radiative Decays of Neutralinos in Proton-Antiproton Collisions at√s=1.8TeV

Author

S. Eno, A. W. Booth, J. Tonnison, S. Zucchelli, F. DeJongh, F. Rimondi, S. Ogawa, M. Timko, B. Flaugher, G. M. Grieco, W-M. Yao, K. L. Byrum, H. Keutelian, E. Meschi, Sung Keun Park, P. Giromini, J. Skarha, Steve Kuhlmann, M. Franklin, Kiminori Kondo, Y. Tsay, A. Bodek, P. Hurst, Kevin Einsweiler, J. C. Freeman, T. Baumann, M. Cordelli, G. Busetto, M. Incagli, George Redlinger, B. Farhat, Fumio Abe, R. G. Wagner, K. Takikawa, A. Roodman, A. Gauthier, James Bensinger, P. F. Derwent, D. Theriot, S. Cihangir, N. Wainer, Kazuhiko Hara, M. J. Shochet, C. Anway-Wiese, A. Zanetti, J. Wyss, D. A. Kardelis, H. H. Williams, P. Maas, S. Bertolucci, S. B. Kim, G. Sganos, J. S T Ng, Weiya Zhang, J. P. Berge, S. Segler, L. A. Markosky, L. Song, T. Fuess, Yasuo Fukui, A. Stefanini, M. Atac, C. Boswell, J. A.J. Matthews, J. C. Yun, A. Byon-Wagner, H. Iso, M. Yokoyama, R. B. Drucker, M. Krasberg, R. Grindley, J. Wolinski, T. Meyer, G. Gagliardi, G. J. Feldman, J. Tseng, B. T. Huffman, C. Pagliarone, Yongsun Kim, Nikos Giokaris, R. K. Plunkett, M. Roach, D. Quarrie, D. Lucchesi, W. Carithers, Duncan Carlsmith, Sebastian N. White, E. Kuns, N. Bacchetta, E. Pare, G. Punzi, B. L. Winer, R. Carey, G. Pauletta, M. Contreras, P. Auchincloss, R. J. Hollebeek, Giorgio Chiarelli, T. Rodrigo, Umesh Joshi, M. Lindgren, Roy F Schwitters, F. Ptohos, K. Biery, M. Ninomiya, W. J. Robertson, M. Mariotti, S. Moulding, C. B. Luchini, R. W. Kadel, J. P. Marriner, R. Cashmore, J. Konigsberg, Gordon Watts, G. Bauer, M. Frautschi, F. D. Snider, A. Etchegoyen, R. P. Johnson, Stefano Belforte, D. W. Gerdes, Chris Wendt, Y. Ye, M. Sheaff, A. Baden, L. Pondrom, E. Wicklund, J. E. Elias, Y. Cen, C. Campagnari, T. Ino, W. Chinowsky, S. Tkaczyk, R. E. Blair, R. L. Swartz, Marjorie Shapiro, M. Campbell, D. A. Smith, J. Cooper, R. M. Keup, S. H. Kim, P. Giannetti, L. Holloway, M. W. Bailey, Avraham Yagil, G. P. Yeh, A. Hölscher, R. Handler, A. Tollestrup, P. Lukens, J. Hylen, A. Para, R. C. Walker, Henrik Jeldtoft Jensen, X. Wu, M. Loreti, S. Mikamo, R. Mattingly, D. N. Brown, K. Chadwick, G. W. Foster, G. Sullivan, R. Kephart, Tony Liss, E. Buckley-Geer, Riccardo Paoletti, M. Takano, J. Patrick, S. Dell'Agnello, J. Siegrist, P. Sphicas, D. G. Underwood, T. Devlin, Hong Sj, T. Mimashi, M. Dickson, Jose M. Benlloch, S. R. Hahn, W. K. Sakumoto, S. Geer, I. Karliner, R. D. Sard, F. Tartarelli, V. Scarpine, Virgil E Barnes, K. Sliwa, M. Miller, Patrizia Azzi, E. Kearns, Paul Tipton, P. Sinervo, Nicola Turini, A. T. Laasanen, L. Ristori, J. Mueller, T. J. Phillips, A. Caner, L. F. Nakae, M. Mishina, M. Dell'Orso, Y. Morita, J. D. Lewis, Fumihiko Ukegawa, A. Spies, S. Lammel, A. Menzione, Konstanty Sumorok, E. Kovacs, Y. Seiya, C. Grosso-Pilcher, S. Miyashita, S. Behrends, A. B. Wicklund, C. Day, Kostantinos Kordas, G. F. Sciacca, D. Amidei, N. M. Shaw, Catherine Newman-Holmes, Henry J. Frisch, D. Neuberger, L. Pescara, E. H. Low, S. Miscetti, E. E. Schmidt, R. E. Hughes, D. Y. Wu, William Trischuk, H. Wenzel, W. Badgett, Aurore Savoy-Navarro, W. C. Wester, P. Bartalini, M. Mangano, J. Gonzalez, F. Bedeschi, L. Demortier, V. Bolognesi, J. Walsh, Marina Cobal, Jay Hauser, J. Yoh, J. D. Cunningham, B. Harral, G. W. Brandenburg, D. Benjamin, A. Sill, A. G. Clark, S. Errede, T. Song, G. Bellettini, R. Ely, R. Vidal, J. T. Carroll, Lawrence Nodulman, P. Limon, D. Connor, J. N. Bellinger, J. W. Chapman, T. Muller, B. A. Barnett, L. Keeble, Giorgio Apollinari, L. E. Kirsch, Teruki Kamon, I. Nakano, Craig Blocker, Kaori Maeshima, S. Zhang, A. Barbaro-Galtieri, L. Gladney, F. Cervelli, Wen Li, P. Schlabach, N. S. Lockyer, C. Nelson, S. A. Hauger, James Proudfoot, M. Spahn, P. Kesten, J. Huth, B. Denby, R. C. Webb, R. L. Wagner, Alan Garfinkel, P. McIntyre, M. H. Schub, B. Hubbard, S. Tether, G. Houk, K. Goulianos, R. Markeloff, Dario Bisello, P. de Barbaro, K. Ragan, M. Gold, Shlomit Tarem, A. Bamberger, Sally Seidel, S. Vejcik, C. P. Jessop, S. Kanda, H. Grassmann, J. Rhoades, Luca Stanco, C. Haber, S. Bhadra, A. Mukherjee, A. Dunn, A. G. Piacentino, O. Schneider, F. Zetti, C. Hawk, J. I. Lamoureux, Andrea Sansoni, S. Donati, T. L. Watts, K. Yasuoka, T. Hessing, Doyeong Kim, V. Papadimitriou, T. Rohaly, Andrew Beretvas, D. Crane, S. Leone, T. Westhusing, H. S. Budd, Andreas Warburton, Robert M Harris, Andrea Castro, P. Hu, R. St. Denis, A. Scribano, M. Binkley, and M. G. Albrow

Subjects

Physics, Quantum chromodynamics, Particle physics, Gluino, Computer Science::Information Retrieval, High Energy Physics::Phenomenology, General Physics and Astronomy, Superpartner, Supersymmetry, Particle identification, Gluon, Nuclear physics, Antiproton, High Energy Physics::Experiment, Nuclear Experiment, Energy (signal processing)

Abstract

We have sought evidence for radiative decays of neutralinos produced in proton-antiproton collisions at {radical}{ital s}=1.8TeV. Events containing two photons plus large missing transverse energy were investigated. The observed event rate and the missing transverse energy distribution of the two-photon events are consistent with QCD predictions. Inferred limits on squark and gluino masses depend on the supersymmetry model parameters. The particular choices {mu}={minus}40GeV/{ital c}{sup 2} and tan{beta}=1.5 lead to 90%-confidence-level asymptotic lower limits of 110 GeV/{ital c}{sup 2} and 140 GeV/{ital c}{sup 2} for squarks and gluinos, respectively.

Published

1995

40. Observation of Rapidity Gaps inp¯pCollisions at 1.8 TeV

Author

R. J. Hollebeek, Y. Cen, W. Carithers, S. Zhang, T. L. Watts, A. Barbaro-Galtieri, L. Gladney, C. Anway-Wiese, A. Tollestrup, M. Binkley, M. G. Albrow, T. Rodrigo, N. Bacchetta, S. A. Hauger, T. Devlin, Jose M. Benlloch, J. A.J. Matthews, G. Gagliardi, B. Denby, Umesh Joshi, J. Siegrist, Hong Sj, P. Bartalini, R. C. Webb, M. Gold, Konstantin Goulianos, D. Amidei, A. T. Goshaw, J. Cooper, R. M. Keup, S. Tkaczyk, T. Rohaly, T. Ino, Robert M Harris, G. Pauletta, S. Bertolucci, M. Contreras, A. Hölscher, S. H. Kim, M. Takano, M. Mishina, E. Kearns, James Proudfoot, Catherine Newman-Holmes, J. Mueller, M. Incagli, Fumihiko Ukegawa, P. Lukens, D. Crane, C. Campagnari, Andrea Castro, Gordon Watts, Andrea Sansoni, Weiya Zhang, J. P. Berge, C. Boswell, F. Cervelli, Wen Li, P. Schlabach, G. P. Yeh, G. Sullivan, C. Pagliarone, M. Roach, D. Lucchesi, S. Errede, S. Behrends, A. Spies, A. B. Wicklund, P. Hu, M. Loreti, S. Donati, S. Vejcik, Shlomit Tarem, M. Yokoyama, N. M. Shaw, C. Nelson, R. B. Drucker, Stefano Belforte, Tony Liss, P. Sphicas, F. Tartarelli, V. Scarpine, Virgil E Barnes, X. Wu, K. Sliwa, A. Roodman, J. Konigsberg, W. K. Sakumoto, A. Gauthier, James Bensinger, K. Biery, J. Yoh, P. F. Derwent, R. St. Denis, R. Kephart, L. Pondrom, E. Wicklund, E. E. Schmidt, T. Hessing, S. Leone, K. Yasuoka, Chris Wendt, A. Bamberger, S. Geer, T. Mimashi, M. Dickson, P. Kesten, Kazuhiko Hara, L. Ristori, B. Farhat, J. E. Elias, Avraham Yagil, H. S. Budd, T. Muller, D. Y. Wu, Fumio Abe, Doyeong Kim, P. Maas, P. Auchincloss, C. Grosso-Pilcher, M. Franklin, K. Takikawa, R. Mattingly, D. N. Brown, V. Papadimitriou, T. J. Phillips, Y. Morita, Lawrence Nodulman, K. Chadwick, P. Limon, S. Cihangir, F. Ptohos, P. Hurst, George Redlinger, J. C. Freeman, N. Wainer, H. Jensen, R. Vidal, T. Westhusing, Nicola Turini, A. T. Laasanen, S. Miyashita, W. C. Wester, W. J. Robertson, J. Gonzalez, F. Bedeschi, B. Harral, A. Caner, Jay Hauser, Sally Seidel, M. Dell'Orso, G. W. Brandenburg, L. Pescara, L. A. Markosky, H. H. Williams, Andreas Warburton, M. Mariotti, R. W. Kadel, A. Mukherjee, Andrew Beretvas, S. Lammel, Yasuo Fukui, A. Menzione, Y. Tsay, S. Ogawa, A. Stefanini, C. Haber, D. Benjamin, R. C. Walker, J. Wyss, I. Nakano, L. F. Nakae, Henry J. Frisch, A. Etchegoyen, R. P. Johnson, C. Day, A. Sill, D. Quarrie, M. Atac, M. J. Shochet, G. F. Sciacca, S. Miscetti, S. Eno, B. A. Barnett, L. Keeble, Giorgio Apollinari, C. P. Jessop, Teruki Kamon, R. Carey, M. Campbell, D. A. Smith, W. Badgett, J. C. Yun, A. Zanetti, S. R. Hahn, S. Kanda, P. Giannetti, M. W. Bailey, H. Wenzel, A. W. Booth, Craig Blocker, Kaori Maeshima, H. Grassmann, J. Rhoades, D. Neuberger, F. Zetti, C. Hawk, J. D. Lewis, R. Handler, R. Ely, Yongsun Kim, Marina Cobal, Roy F Schwitters, I. Karliner, Nikos Giokaris, Sebastian N. White, M. Spahn, J. S T Ng, A. Dunn, J. Huth, R. L. Wagner, L. E. Kirsch, J. D. Cunningham, Alan Garfinkel, S. Dell'Agnello, S. Moulding, S. Zucchelli, G. Bellettini, D. Theriot, E. Kuns, P. McIntyre, M. H. Schub, R. D. Sard, C. B. Luchini, M. Frautschi, Paul Tipton, Giorgio Chiarelli, B. Hubbard, Kostantinos Kordas, G. Houk, H. Keutelian, F. Rimondi, Steve Kuhlmann, B. Flaugher, G. M. Grieco, Duncan Carlsmith, E. H. Low, R. E. Hughes, M. Lindgren, Konstanty Sumorok, D. Connor, J. N. Bellinger, L. Song, T. Fuess, J. P. Marriner, P. de Barbaro, L. Demortier, V. Bolognesi, R. Markeloff, F. DeJongh, A. G. Piacentino, Kiminori Kondo, K. Ragan, Dario Bisello, J. I. Lamoureux, N. S. Lockyer, L. Holloway, M. Mangano, J. Walsh, O. Schneider, J. T. Carroll, J. W. Chapman, A. Bodek, J. Patrick, T. Song, W-M. Yao, E. Pare, G. Punzi, B. L. Winer, R. L. Swartz, Marjorie Shapiro, Y. Ye, E. Meschi, Sung Keun Park, M. Timko, J. Hylen, A. Para, L. Stanco, E. Buckley-Geer, Riccardo Paoletti, A. G. Clark, K. L. Byrum, P. Sinervo, R. Cashmore, G. W. Foster, J. Skarha, T. Baumann, S. Tether, M. Cordelli, G. Busetto, R. G. Wagner, G. Sganos, S. Segler, G. J. Feldman, J. Tseng, W. Chinowsky, R. E. Blair, B. T. Huffman, D. G. Underwood, Aurore Savoy-Navarro, R. K. Plunkett, S. Bhadra, M. Ninomiya, E. Kovacs, William Trischuk, D. A. Kardelis, S. B. Kim, M. Krasberg, R. Grindley, J. Wolinski, T. Meyer, G. Bauer, F. D. Snider, D. W. Gerdes, M. Sheaff, A. Baden, S. Mikamo, M. Miller, Patrizia Azzi, Y. Seiya, J. Tonnison, Kevin Einsweiler, A. Scribano, A. Byon-Wagner, and H. Iso

Subjects

Physics, Quantum chromodynamics, Particle physics, Hadron, General Physics and Astronomy, Elementary particle, Multiplicity (mathematics), Gluon, Nuclear physics, High Energy Physics::Experiment, Rapidity, Nuclear Experiment, Energy (signal processing), Boson

Abstract

In $p\overline{p}$ collisions at $\sqrt{s}=1.8$ TeV we find jet events with a rapidity gap topology. The number of hadrons in the rapidity interval $\ensuremath{\Delta}{\ensuremath{\eta}}_{D}$ between leading-jet cones was sampled by charged tracks with ${P}_{T}g400$ MeV/c. We find excess trackless events beyond that expected in a smooth multiplicity distribution. In a control region outside $\ensuremath{\Delta}{\ensuremath{\eta}}_{D}$ we see no excess. For $\ensuremath{\Delta}{\ensuremath{\eta}}_{D}g0.8$, the fraction of excess trackless events, consistent with estimates based on exchange of color-singlet digluons, is $R(\mathrm{gap})=\frac{{\ensuremath{\sigma}}_{\mathrm{jet}}(\mathrm{gap})}{{\ensuremath{\sigma}}_{\mathrm{jet}}}=0.0085\ifmmode\pm\else\textpm\fi{}{0.0012(\mathrm{stat})}_{\ensuremath{-}0.0012}^{+0.0024}(\mathrm{syst})$.

Published

1995

41. Search for Lorentz invariance and CPT violation with muon antineutrinos in the MINOS Near Detector

Author

A. C. Weber, P. Gouffon, D. Bogert, B. Viren, R. L. Talaga, S. V. Cao, J. M. Paley, P. Schreiner, N. Tagg, G.D. Barr, S. R. Mishra, P. Lucas, Juergen Thomas, N. Mayer, R. B. Patterson, M. Kordosky, R. Toner, Gregory J Pawloski, Sacha E Kopp, B. Rebel, H. A. Rubin, R. Gran, M. D. Messier, C. James, Andrew Blake, R. Mehdiyev, A. Schreckenberger, L. H. Whitehead, A. Holin, T. Kafka, Harvey B Newman, R. Hatcher, Christopher G. White, S. Phan-Budd, A. Sousa, Daniel P Cronin-Hennessy, J. K. De Jong, M. C. Sanchez, R. B. Pahlka, R. C. Webb, J. Urheim, W. P. Oliver, E. Falk, N. E. Devenish, G. Tzanakos, G. Koizumi, P. J. Litchfield, J. A. Musser, D. Torretta, G. M. Irwin, J. R. Meier, J. Schneps, N. Graf, Rakesh Sharma, S. Childress, J. Ratchford, C. D. Moore, G. J. Feldman, M. V. Frohne, R. A. Gomes, G. J. Bock, J. Hartnell, I. Z. Danko, Matthew L Strait, R. K. Plunkett, John C. Mitchell, L. Corwin, S. L. Mufson, H. R. Gallagher, J. K. Nelson, M. Bishai, M. Mathis, D. A. Jensen, Warner A. Miller, M. Orchanian, M. A. Thomson, K. Grzelak, J. J. Evans, Carlos Escobar, D. Naples, G. Tinti, Stanley G. Wojcicki, L. Loiacono, Joao A B Coelho, W. A. Mann, J. Hylen, M. C. Goodman, M. V. Diwan, X. Qiu, R. Zwaska, A. E. Kreymer, C. Rosenfeld, D. S. Ayres, J. A. Nowak, P. Adamson, Marvin L Marshak, S. M. S. Kasahara, Alec Habig, R. J. Nichol, J. J. Walding, P. Vahle, S. Cavanaugh, D. J. Boehnlein, Karol Lang, A. Radovic, A. Himmel, Z. Isvan, and L. Mualem

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Muon, Physics::Instrumentation and Detectors, FOS: Physical sciences, Context (language use), QC0793, NuMI, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), Standard-Model Extension, Sidereal time, MINOS, High Energy Physics::Experiment, Neutrino, Neutrino oscillation

Abstract

We have searched for sidereal variations in the rate of antineutrino interactions in the MINOS Near Detector. Using antineutrinos produced by the NuMI beam, we find no statistically significant sidereal modulation in the rate. When this result is placed in the context of the Standard Model Extension theory we are able to place upper limits on the coefficients defining the theory. These limits are used in combination with the results from an earlier analysis of MINOS neutrino data to further constrain the coefficients., 6 pages, 2 figures, 4 tables

Published

2012

42. Measurements of atmospheric neutrinos and antineutrinos in the MINOS Far Detector

Author

A. C. Weber, John C. Mitchell, M. D. Messier, A. E. Kreymer, B. Speakman, Marvin L Marshak, Christopher G. White, D. Bogert, C. Backhouse, R. Toner, M. A. Thomson, D. Naples, G. Tzanakos, S. Phan-Budd, Gregory J Pawloski, Stanley G. Wojcicki, B. Rebel, A. Sousa, J. K. Nelson, Harvey B Newman, G. Koizumi, P. Gouffon, R. Mehdiyev, D. A. Jensen, A. Holin, M. Kordosky, C. James, N. E. Devenish, T. Kafka, J. Hylen, B. Viren, J. J. Evans, Andrew Blake, S. R. Mishra, G. M. Irwin, R. B. Patterson, R. Zwaska, D. E. Jaffe, G. J. Feldman, W. A. Mann, R. L. Talaga, C. Rosenfeld, S. V. Cao, M. C. Goodman, M. V. Diwan, L. H. Whitehead, Sacha E Kopp, P. Adamson, R. Gran, J. K. De Jong, S. M. S. Kasahara, J. J. Walding, H. R. Gallagher, M. V. Frohne, Warner A. Miller, Daniel P Cronin-Hennessy, P. J. Litchfield, Carlos Escobar, J. M. Paley, M. Bishai, Rakesh Sharma, S. Childress, J. A. Nowak, R. K. Plunkett, Alec Habig, M. Orchanian, K. Grzelak, G. J. Bock, J. Ratchford, R. A. Gomes, J. Schneps, P. Vahle, C. D. Moore, N. Tagg, A. Radovic, I. Z. Danko, D. J. Boehnlein, X. Qiu, G.D. Barr, P. Lucas, Juergen Thomas, L. Corwin, S. L. Mufson, K. Zhang, A. Himmel, Z. Isvan, D. Torretta, Karol Lang, L. Mualem, M. Mathis, J. Hartnell, M. M. Medeiros, J. Urheim, M. C. Sanchez, R. B. Pahlka, Matthew L Strait, Joao A B Coelho, J. A. Musser, H. A. Rubin, W. P. Oliver, P. Schreiner, John Derek Chapman, A. Schreckenberger, E. Falk, J. R. Meier, R. C. Webb, N. Graf, R. Hatcher, R. J. Nichol, N. Mayer, and L. Loiacono

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Muon, Neutral current, 010308 nuclear & particles physics, Physics::Instrumentation and Detectors, Monte Carlo method, High Energy Physics::Phenomenology, Flux, FOS: Physical sciences, QC0793, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), MINOS, 0103 physical sciences, High Energy Physics::Experiment, Neutrino, 010306 general physics, Neutrino oscillation, Charged current

Abstract

This paper reports measurements of atmospheric neutrino and antineutrino interactions in the MINOS Far Detector, based on 2553 live-days (37.9 kton-years) of data. A total of 2072 candidate events are observed. These are separated into 905 contained-vertex muons and 466 neutrino-induced rock-muons, both produced by charged-current $\nu_{\mu}$ and $\bar{\nu}_{\mu}$ interactions, and 701 contained-vertex showers, composed mainly of charged-current $\nu_{e}$ and $\bar{\nu}_{e}$ interactions and neutral-current interactions. The curvature of muon tracks in the magnetic field of the MINOS Far Detector is used to select separate samples of $\nu_{\mu}$ and $\bar{\nu}_{\mu}$ events. The observed ratio of $\bar{\nu}_{\mu}$ to $\nu_{\mu}$ events is compared with the Monte Carlo simulation, giving a double ratio of $R^{data}_{\bar{\nu}/\nu}/R^{MC}_{\bar{\nu}/\nu} = 1.03 \pm 0.08 (stat.) \pm 0.08 (syst.)$. The $\nu_{\mu}$ and $\bar{\nu}_{\mu}$ data are separated into bins of $L/E$ resolution, based on the reconstructed energy and direction of each event, and a maximum likelihood fit to the observed $L/E$ distributions is used to determine the atmospheric neutrino oscillation parameters. This fit returns 90% confidence limits of $|\Delta m^{2}| = (1.9 \pm 0.4) \times 10^{-3} eV^{2}$ and $sin^{2} 2\theta > 0.86$. The fit is extended to incorporate separate $\nu_{\mu}$ and $\bar{\nu}_{\mu}$ oscillation parameters, returning 90% confidence limits of $|\Delta m^{2}|-|\Delta \bar{m}^{2}| = 0.6^{+2.4}_{-0.8} \times 10^{-3} eV^{2}$ on the difference between the squared-mass splittings for neutrinos and antineutrinos., Comment: 22 pages, 19 figures, submitted to Phys. Rev. D

Published

2012

43. Comparisons of annual modulations in MINOS with the event rate modulation in CoGeNT

Author

P. Lucas, R. B. Patterson, Carlos Escobar, R. K. Plunkett, J. Schneps, M. Bishai, A. M. McGowan, M. V. Diwan, X. Qiu, J. K. De Jong, I. Anghel, M. Orchanian, J. A. Nowak, K. Grzelak, H. A. Rubin, M. C. Sanchez, M. A. Thomson, D. Naples, Stanley G. Wojcicki, Rakesh Sharma, M. V. Frohne, J. O'Connor, J. Hylen, Sacha E Kopp, M. C. Goodman, R. B. Pahlka, R. Gran, A. E. Kreymer, S. V. Cao, Daniel P Cronin-Hennessy, S. Childress, M. D. Messier, D. E. Jaffe, Marvin L Marshak, J. J. Evans, C. D. Moore, G. M. Irwin, Christopher G. White, S. Moed Sher, J. M. Paley, P. Schreiner, Warner A. Miller, W. P. Oliver, A. V. Devan, G. J. Feldman, A. C. Weber, R. Hatcher, A. Holin, S. R. Mishra, Karol Lang, W. A. Mann, D. Torretta, H. R. Gallagher, M. Kordosky, J. K. Nelson, A. Himmel, Z. Isvan, L. Mualem, P. Gouffon, S. Phan-Budd, A. Sousa, Andrew Blake, P. Vahle, B. Viren, D. A. Jensen, L. H. Whitehead, J. Hartnell, Alec Habig, R. C. Webb, N. E. Devenish, P. J. Litchfield, R. L. Talaga, G. Tzanakos, M. M. Medeiros, N. Tagg, R. Zwaska, T. Kafka, G. Koizumi, J. Urheim, J. R. Meier, G.D. Barr, N. Graf, Harvey B Newman, C. Rosenfeld, D. Bogert, Juergen Thomas, R. J. Nichol, Joao A B Coelho, G. J. Bock, L. Corwin, P. Adamson, N. Mayer, A. Radovic, J. A. Musser, S. M. S. Kasahara, M. Mathis, R. Toner, B. Rebel, R. A. Gomes, R. Mehdiyev, Gregory J Pawloski, C. James, A. Schreckenberger, and E. Falk

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Muon, Dark matter, Flux, chemistry.chemical_element, FOS: Physical sciences, Radon, Cosmic ray, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), chemistry, MINOS, Modulation (music), Event (particle physics)

Abstract

The CoGeNT collaboration has recently published results from a fifteen month data set which indicate an annual modulation in the event rate similar to what is expected from weakly interacting massive particle interactions. It has been suggested that the CoGeNT modulation may actually be caused by other annually modulating phenomena, specifically the flux of atmospheric muons underground or the radon level in the laboratory. We have compared the phase of the CoGeNT data modulation to that of the concurrent atmospheric muon and radon data collected by the MINOS experiment which occupies an adjacent experimental hall in the Soudan Underground Laboratory. The results presented are obtained by performing a shape-free $\chi^{2}$ data-to-data comparison and from a simultaneous fit of the MINOS and CoGeNT data to phase-shifted sinusoidal functions. Both tests indicate that the phase of the CoGeNT modulation is inconsistent with the phases of the MINOS muon and radon modulations at the \unit[3.0]{$\sigma$} level., Comment: 8 pages, 4 figures

Published

2012

44. A Search for Single Photon Events in Neutrino Interactions

Author

C. Joseph, F. Salvatore, D. Geppert, P.W. Cattaneo, Ante Ljubičić, Valerio Vercesi, Dmitry V. Naumov, Marco Laveder, Th. Stolarczyk, J-P. Meyer, Caroline Poulsen, A.M. Scott, K. Benslama, E. Pennacchio, N. Hyett, Marco Fraternali, Luca Rebuffi, D. Pollmann, J. A. Hernando, L.J. Winton, A. Lanza, Artem Chukanov, M. E. Sevior, J. Ulrichs, Kevin Varvell, J. Kokkonen, M. T. Tran, J. Long, M. Mezzetto, Q. Wu, O.L. Klimov, J.-P. Mendiburu, E. Tsesmelis, Caren Hagner, Kai Zuber, G. Sozzi, U. Stiegler, Alexey Krasnoperov, A.-M. Touchard, A. Cervera-Villanueva, K. Schahmaneche, C.T. Kullenberg, P. Hurst, T. Schmidt, E. Gangler, A. Grant, H. Pessard, P. Nedelec, Roberto Ferrari, L. Di Lella, H. Degaudenzi, M. Baldo-Ceolin, M. Banner, G. J. Feldman, G. F. Moorhead, Malcolm Ellis, A. Kovzelev, M. Valdata-Nappi, Didier Ferrere, J.J. Gómez-Cadenas, V. Flaminio, Mikhail Kirsanov, R. Cousins, F. J. P. Soler, Alessandro Cardini, Yu. Nefedov, L. Vacavant, J.-M. Vieira, Alexander Toropin, L. S. Peak, C. Lachaud, J.M. Gaillard, T. Weisse, F. Bobisut, J.J. Kim, Giacomo Graziani, A. Letessier-Selvon, J. Gosset, Sergei Gninenko, Giacomo Polesello, E. do Couto e Silva, André Rubbia, G. Bassompierre, Bruce Yabsley, X. Méchain, Antonio Bueno, M. Tareb-Reyes, T. Vinogradova, D. Gibin, G. Collazuol, Mario Stipčević, A. Placci, R. Petti, R. Challis, E. Iacopini, A. Godley, A. Polyarush, A. De Santo, S.A. Bunyatov, S. Boyd, J. Dumarchez, Vyacheslav Valuev, Achim Geiser, Vincenzo Cavasinni, B. Lakić, G. N. Taylor, Michel Gouanère, C. Conta, B. Schmidt, J. Bouchez, O. Samoylov, F. Martelli, M. Veltri, F. Vannucci, M.B. Seaton, Claus Gößling, G. Conforto, N. Kent, A. Lupi, V. V. Lyubushkin, V. Tereshchenko, A. Baldisseri, D. Steele, Barry Blumenfeld, Domizia Orestano, P. Zuccon, G. Vidal-Sitjes, Drew Dimmery, M. Contalbrigo, A. Marchionni, J. M. Levy, Sergey A. Kulagin, J. Rico, A. Sconza, Frédéric Juget, Chiara Roda, L. La Rotonda, S. R. Mishra, Stefano Lacaprara, Fergus Wilson, P. Riemann, B. A. Popov, L. Camilleri, S.N. Tovey, I. Bird, X.C. Tian, Fr Pastore, L. Linssen, Sergey Alekhin, F.V. Weber, C. Nguyen-Mau, T. Del Prete, P. Astier, D. Autiero, D. Sillou, A. Guglielmi, Nathalie Besson, H. Zaccone, Laboratoire d'Annecy de Physique des Particules (LAPP), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique Nucléaire et de Hautes Énergies (LPNHE), Centre National de la Recherche Scientifique (CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Pierre et Marie Curie - Paris 6 (UPMC), APC - Neutrinos, Centre National de la Recherche Scientifique (CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Pierre et Marie Curie - Paris 6 (UPMC)-AstroParticule et Cosmologie (APC (UMR_7164)), Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, NOMAD, Kullenberg, Ct, Mishra, Sr, Dimmery, D, Tian, Xc, Autiero, D, Gninenko, S, Rubbia, A, Alekhin, S, Astier, R, Baldisseri, A, Baldo Ceolin, M, Banner, M, Bassompierre, G, Benslama, K, Besson, N, Bird, I, Blumenfeld, B, Bobisut, F, Bouchez, J, Boyd, S, Bueno, A, Bunyatov, S, Camilleri, L, Cardini, A, Cattaneo, Pw, Cavasinni, V, Cervera Villanueva, A, Challis, R, Chukanov, A, Collazuol, G, Conforto, G, Conta, C, Contalbrigo, M, Cousins, R, Degaudenzi, H, De Santo, A, Del Prete, T, Di Lella, L, Silva, Ede, Dumarchez, J, Ellis, M, Feldman, Gj, Ferrari, R, Ferrere, D, Flaminio, V, Fraternali, M, Gaillard, Jm, Gangler, E, Geiser, A, Geppert, D, Gibin, D, Godley, A, Gomez Cadenas, Jj, Gosset, J, Gossling, C, Gouanere, M, Grant, A, Graziani, G, Guglielmi, A, Hagner, C, Hernando, J, Hurst, P, Hyett, N, Iacopini, E, Joseph, C, Juget, F, Kent, N, Klimov, O, Kokkonen, J, Kovzelev, A, Krasnoperov, A, Kim, Jj, Kirsanov, M, Kulagin, S, Lacaprara, S, Lachaud, C, Lakic, B, Lanza, A, La Rotonda, L, Laveder, M, Letessier Selvon, A, Levy, Jm, Ling, J, Linssen, L, Ljubicic, A, Long, J, Lupi, A, Lyubushkin, V, Marchionni, A, Martelli, F, Mechain, X, Mendiburu, Jp, Meyer, Jp, Mezzetto, M, Moorhead, Cf, Naumov, D, Nedelec, R, Nefedov, Y, Nguyen Mau, C, Orestano, Domizia, Pastore, F, Peak, L, Pennacchio, E, Pessard, H, Petti, R, Placci, A, Polesello, G, Pollmann, D, Polyarush, A, Poulsen, C, Popov, B, Rebuffi, L, Rico, J, Riemann, P, Roda, C, Salvatore, F, Samoylov, O, Schahmaneche, K, Schmidt, B, Schmidt, T, Sconza, A, Scott, Am, Seaton, Mb, Sevior, M, Sillou, D, Soler, Fjr, Sozzi, G, Steele, D, Stiegler, U, Stipcevic, M, Stolarczyk, T, Tareb Reyes, M, Taylor, Gn, Tereshchenko, V, Toropin, A, Touchard, Am, Tovey, Sn, Tran, Mt, Tsesmelis, E, Ulrichs, J, Vacavant, L, Valdata Nappi, M, Valuev, V, Vannucci, F, Varvell, Ke, Veltri, M, Vercesi, V, Vidal Sitjes, G, Vieira, Jm, Vinogradova, T, Weber, Fv, Weissee, T, Wilson, Ff, Winton, Lj, Wu, Q, Yabsley, Bd, Zaccone, H, Zuber, K, Zuccon, R., Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-AstroParticule et Cosmologie (APC (UMR_7164)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS), Laboratoire d'Annecy de Physique des Particules (LAPP/Laboratoire d'Annecy-le-Vieux de Physique des Particules), AstroParticule et Cosmologie (APC (UMR_7164)), Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Observatoire de Paris, PSL Research University (PSL)-PSL Research University (PSL)-Université Paris Diderot - Paris 7 (UPD7)-Laboratoire de Physique Nucléaire et de Hautes Énergies (LPNHE), and Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Université Paris Diderot - Paris 7 (UPD7)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Nuclear and High Energy Physics, Particle physics, Photon, FOS: Physical sciences, 01 natural sciences, High Energy Physics - Experiment, Nuclear physics, MiniBooNE, Neutral current, High Energy Physics - Experiment (hep-ex), Pion, High Energy Physics - Phenomenology (hep-ph), 0103 physical sciences, Neutrino, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Coherent, Single photon, 010306 general physics, Charged current, Physics, 010308 nuclear & particles physics, Física, Deep inelastic scattering, single photon, neutrino, neutral current, coherent, pion, High Energy Physics - Phenomenology, [PHYS.HPHE]Physics [physics]/High Energy Physics - Phenomenology [hep-ph], High Energy Physics::Experiment, Event (particle physics), Particle Physics - Experiment

Abstract

We present a search for neutrino induced events containing a single, exclusive photon using data from the NOMAD experiment at the CERN SPS where the average energy of the neutrino flux is ≃25 GeV. The search is motivated by an excess of electron-like events in the 200-475 MeV energy region as reported by the MiniBooNE experiment. In NOMAD, photons are identified via their conversion to e + e - in an active target embedded in a magnetic field. The background to the single photon signal is dominated by the asymmetric decay of neutral pions produced either in a coherent neutrino-nucleus interaction, or in a neutrino-nucleon neutral current deep inelastic scattering, or in an interaction occurring outside the fiducial volume. All three backgrounds are determined in situ using control data samples prior to opening the 'signal-box'. In the signal region, we observe 155 events with a predicted background of 129.2±8.5±3.3. We interpret this as null evidence for excess of single photon events, and set a limit. Assuming that the hypothetical single photon has a momentum distribution similar to that of a photon from the coherent π 0 decay, the measurement yields an upper limit on single photon events, Physics Letters B, 706 (4-5), ISSN:0370-2693, ISSN:0031-9163, ISSN:1873-2445

Published

2012

45. Evidence for color coherence inpp¯collisions at √s=1.8 TeV

Author

F. Abe, M. Albrow, D. Amidei, C. Anway-Wiese, G. Apollinari, M. Atac, P. Auchincloss, P. Azzi, N. Bacchetta, A. R. Baden, W. Badgett, M. W. Bailey, A. Bamberger, P. de Barbaro, A. Barbaro-Galtieri, V. E. Barnes, B. A. Barnett, P. Bartalini, G. Bauer, T. Baumann, F. Bedeschi, S. Behrends, S. Belforte, G. Bellettini, J. Bellinger, D. Benjamin, J. Benlloch, J. Bensinger, A. Beretvas, J. P. Berge, S. Bertolucci, K. Biery, S. Bhadra, M. Binkley, D. Bisello, R. Blair, C. Blocker, A. Bodek, V. Bolognesi, W. Booth, C. Boswell, G. Brandenburg, D. Brown, E. Buckley-Geer, H. S. Budd, G. Busetto, A. Byon-Wagner, K. L. Byrum, C. Campagnari, M. Campbell, A. Caner, R. Carey, W. Carithers, D. Carlsmith, J. T. Carroll, R. Cashmore, A. Castro, Y. Cen, F. Cervelli, K. Chadwick, J. Chapman, G. Chiarelli, W. Chinowsky, S. Cihangir, A. G. Clark, M. Cobal, D. Connor, M. Contreras, J. Cooper, M. Cordelli, D. Crane, J. D. Cunningham, C. Day, F. DeJongh, S. Dell’Agnello, M. Dell’Orso, L. Demortier, B. Denby, P. F. Derwent, T. Devlin, M. Dickson, S. Donati, R. B. Drucker, A. Dunn, K. Einsweiler, J. E. Elias, R. Ely, S. Eno, S. Errede, A. Etchegoyen, B. Farhat, M. Frautschi, G. J. Feldman, B. Flaugher, G. W. Foster, M. Franklin, J. Freeman, H. Frisch, T. Fuess, Y. Fukui, G. Gagliardi, A. F. Garfinkel, A. Gauthier, S. Geer, D. W. Gerdes, P. Giannetti, N. Giokaris, P. Giromini, L. Gladney, M. Gold, J. Gonzalez, K. Goulianos, H. Grassmann, G. M. Grieco, R. Grindley, C. Grosso-Pilcher, C. Haber, S. R. Hahn, R. Handler, K. Hara, B. Harral, R. M. Harris, S. A. Hauger, J. Hauser, C. Hawk, T. Hessing, R. Hollebeek, A. Hölscher, S. Hong, G. Houk, P. Hu, B. Hubbard, B. T. Huffman, R. Hughes, P. Hurst, J. Huth, J. Hylen, M. Incagli, T. Ino, H. Iso, H. Jensen, C. P. Jessop, R. P. Johnson, U. Joshi, R. W. Kadel, T. Kamon, S. Kanda, D. A. Kardelis, I. Karliner, E. Kearns, L. Keeble, R. Kephart, P. Kesten, R. M. Keup, H. Keutelian, D. Kim, S. B. Kim, S. H. Kim, Y. K. Kim, L. Kirsch, K. Kondo, J. Konigsberg, K. Kordas, E. Kovacs, M. Krasberg, S. E. Kuhlmann, E. Kuns, A. T. Laasanen, S. Lammel, J. I. Lamoureux, S. Leone, J. D. Lewis, W. Li, P. Limon, M. Lindgren, T. M. Liss, N. Lockyer, M. Loreti, E. H. Low, D. Lucchesi, C. B. Luchini, P. Lukens, P. Maas, K. Maeshima, M. Mangano, J. P. Marriner, M. Mariotti, R. Markeloff, L. A. Markosky, J. A. J. Matthews, R. Mattingly, P. McIntyre, A. Menzione, E. Meschi, T. Meyer, S. Mikamo, M. Miller, T. Mimashi, S. Miscetti, M. Mishina, S. Miyashita, Y. Morita, S. Moulding, J. Mueller, A. Mukherjee, T. Muller, L. F. Nakae, I. Nakano, C. Nelson, D. Neuberger, C. Newman-Holmes, J. S. T. Ng, M. Ninomiya, L. Nodulman, S. Ogawa, C. Pagliarone, R. Paoletti, V. Papadimitriou, A. Para, E. Pare, S. Park, J. Patrick, G. Pauletta, L. Pescara, T. J. Phillips, A. G. Piacentino, R. Plunkett, L. Pondrom, J. Proudfoot, F. Ptohos, G. Punzi, D. Quarrie, K. Ragan, G. Redlinger, J. Rhoades, M. Roach, F. Rimondi, L. Ristori, W. J. Robertson, T. Rodrigo, T. Rohaly, A. Roodman, W. K. Sakumoto, A. Sansoni, R. D. Sard, A. Savoy-Navarro, V. Scarpine, P. Schlabach, E. E. Schmidt, O. Schneider, M. H. Schub, R. Schwitters, G. Sciacca, A. Scribano, S. Segler, S. Seidel, Y. Seiya, G. Sganos, M. Shapiro, N. M. Shaw, M. Sheaff, M. Shochet, J. Siegrist, A. Sill, P. Sinervo, J. Skarha, K. Sliwa, D. A. Smith, F. D. Snider, L. Song, T. Song, M. Spahn, P. Sphicas, A. Spies, R. St. Denis, L. Stanco, A. Stefanini, G. Sullivan, K. Sumorok, R. L. Swartz, M. Takano, K. Takikawa, S. Tarem, F. Tartarelli, S. Tether, D. Theriot, M. Timko, P. Tipton, S. Tkaczyk, A. Tollestrup, J. Tonnison, W. Trischuk, Y. Tsay, J. Tseng, N. Turini, F. Ukegawa, D. Underwood, S. Vejcik, R. Vidal, R. G. Wagner, R. L. Wagner, N. Wainer, R. C. Walker, J. Walsh, A. Warburton, G. Watts, T. Watts, R. Webb, C. Wendt, H. Wenzel, W. C. Wester, T. Westhusing, S. N. White, A. B. Wicklund, E. Wicklund, H. H. Williams, B. L. Winer, J. Wolinski, D. Y. Wu, X. Wu, J. Wyss, A. Yagil, W. Yao, K. Yasuoka, Y. Ye, G. P. Yeh, J. Yoh, M. Yokoyama, J. C. Yun, A. Zanetti, F. Zetti, S. Zhang, W. Zhang, and S. Zucchelli

Subjects

Quantum chromodynamics, Physics, Particle physics, Physics and Astronomy (miscellaneous), Mathematical model, Physics::Instrumentation and Detectors, Monte Carlo method, Detector, Tevatron, Perturbative QCD, Nuclear physics, Physics::Accelerator Physics, High Energy Physics::Experiment, Fermilab, Coherence (physics)

Abstract

Color coherence effects in pp\ifmmode\bar\else\textasciimacron\fi{} collisions are observed and studied with CDF, the Collider Detector at the Fermilab Tevatron collider. We demonstrate these effects by measuring spatial correlations between soft and leading jets in multijet events. Variables sensitive to interference are identified by comparing the data to the predictions of various shower Monte Carlo programs that are substantially different with respect to the implementation of coherence.

Published

1994

46. Measurement of theBmeson andbquark cross sections at √s=1.8 TeV using the exclusive decayB0→J/ψK*(892)0

Author

J. T. Carroll, K. Ragan, R. Cashmore, G. Brandenburg, T. Kamon, M. Binkley, M. Cordelli, C. Wendt, M. Sheaff, G. J. Feldman, L. Pondrom, B. T. Huffman, J. A. J. Matthews, A. Bamberger, S. Miscetti, D. A. Kardelis, P. McIntyre, S. Hong, M. Mangano, A. Castro, M. W. Bailey, R. D. Sard, Jae-Chul Yun, N. Giokaris, J. N. Bellinger, J. S. T. Ng, R. C. Walker, M. Roach, W. Zhang, D. Underwood, D. Lucchesi, D. Bisello, P. Giannetti, J. Mueller, E. Pare, P. Schlabach, C. Haber, J. Freeman, R. Kephart, A. Mukherjee, A. Bodek, Y. Fukui, H. Keutelian, D. Benjamin, D. Neuberger, J. Proudfoot, M. Mariotti, A. Etchegoyen, Gong Ping Yeh, G. Pauletta, I. Nakano, G. Sciacca, J. D. Lewis, M. Atac, L. Holloway, R. M. Keup, V. Scarpine, G. M. Grieco, J. J. Walsh, S. Moulding, S. Behrends, M. Dell’Orso, E. Meschi, J. E. Elias, B. Hubbard, P. Limon, S. Dell’Agnello, S. Leone, A. Barbaro-Galtieri, J. Wolinski, R. Vidal, W. K. Sakumoto, K. Yasuoka, D. Quarrie, U. Joshi, M. Franklin, T. Westhusing, F. D. Snider, E. Kearns, M. Albrow, P. Sphicas, A. Scribano, Kostantinos Kordas, M. Ninomiya, A. Para, J. Bensinger, L. Stanco, A. Stefanini, D. Amidei, H. H. Williams, S. Errede, K. Chadwick, G. W. Foster, W. Li, J. Gonzalez, L. A. Markosky, G. Redlinger, H. Grassmann, R. Mattingly, T. Mimashi, F. Rimondi, J. P. Berge, John Wehrley Chapman, J. Huth, G. Piacentino, Marina Cobal, H. Frisch, B. Flaugher, F. Cervelli, P. Sinervo, S. Vejcik, C. Newman-Holmes, C. Nelson, R. Plunkett, T. Ino, M. Timko, S. R. Hahn, M. Loreti, V. E. Barnes, F. DeJongh, S. Zucchelli, Y. Tsay, A. Zanetti, J. D. Cunningham, Y. Seiya, B. Harral, P. Hu, W. Chinowsky, C. Hawk, M. Contreras, J. Skarha, P. de Barbaro, R. Blair, J. Tseng, S. N. White, O. Schneider, P. Auchincloss, T. Hessing, F. Ptohos, S. B. Kim, K. Goulianos, K. Sumorok, A. Savoy-Navarro, R. P. Johnson, T. Rohaly, B. A. Barnett, E. Wicklund, K. Kondo, K. Biery, D. Y. Wu, F. Tartarelli, K. Takikawa, S. Tarem, S. Geer, R. St. Denis, R. B. Drucker, G. Bellettini, L. Keeble, F. Zetti, J. Tonnison, S. Cihangir, F. Ukegawa, Duncan Carlsmith, Dominic Smith, S. Bhadra, M. Frautschi, D. W. Gerdes, G. Watts, F. Bedeschi, C. Campagnari, R. Handler, David Nathan Brown, P. Kesten, P. F. Derwent, P. Giromini, J. Rhoades, M. Dickson, A. R. Baden, L. Kirsch, T. Fuess, L. Ristori, J. Patrick, S. Park, P. Maas, M. Shapiro, T. Muller, W. Carithers, T. Baumann, J. Wyss, R. L. Swartz, P. Lukens, E. Buckley-Geer, K. Einsweiler, S. Bertolucci, V. Bolognesi, S. Eno, F. Abe, D. Theriot, R. L. Wagner, H. S. Budd, R. C. Webb, S. Tether, G. Apollinari, S. Mikamo, A. Roodman, S. Miyashita, D. Crane, W. J. Robertson, W. Badgett, L. Nodulman, S. E. Kuhlmann, J. Hylen, R. M. Harris, N. Turini, J. Siegrist, R. W. Kadel, C. Grosso-Pilcher, W. C. Wester, R. Ely, L. Demortier, T. Song, M. Spahn, D. Connor, M. Lindgren, A. Byon-Wagner, A. Caner, P. Azzi, S. Segler, B. Denby, M. Shochet, M. Krasberg, N. Wainer, A. Gauthier, A. Spies, Jose M. Benlloch, M. Gold, C. B. Luchini, J. Konigsberg, A. Beretvas, M. Takano, S. Ogawa, C. Blocker, L. Pescara, M. Mishina, A. T. Laasanen, S. Tkaczyk, R. Schwitters, E. H. Low, D. DiBitonto, A. Sill, T. Rodrigo, K. L. Byrum, C. Boswell, K. Sliwa, G. Bauer, Shuang Zhang, Y. Ye, G. Busetto, C. Anway-Wiese, P. Tipton, N. M. Shaw, K. Maeshima, E. Kovacs, S. Belforte, R. Carey, J. I. Lamoureux, Y. Cen, R. Hughes, T. Meyer, Y. Morita, R. Paoletti, R. G. Wagner, T. J. Phillips, B. Farhat, B. L. Winer, G. Chiarelli, A. W. Booth, N. Lockyer, T. M. Liss, A. Sansoni, A. Menzione, E. E. Schmidt, G. Punzi, W. Trischuk, S. H. Kim, L. F. Nakae, J. Hauser, Young-Ki Kim, S. Seidel, Xin Wu, M. Incagli, S. Lammel, M. H. Schub, S. A. Hauger, A. F. Garfinkel, A. Yagil, R. Markeloff, T. Devlin, N. Bacchetta, K. Hara, C. Day, A. Tollestrup, A. Dunn, M. Yokoyama, L. Song, C. P. Jessop, A. B. Wicklund, H. Jensen, P. Hurst, G. Houk, S. Kanda, Dohun Kim, R. Grindley, V. Papadimitriou, T. Watts, A. G. Clark, M. Campbell, J. Cooper, L. Gladney, E. Kuns, H. Iso, G. Sullivan, I. Karliner, R. Hollebeek, H. Wenzel, J. P. Marriner, J. Yoh, and M. A. Miller

Subjects

Physics, Particle decay, Particle physics, Meson, TheoryofComputation_ANALYSISOFALGORITHMSANDPROBLEMCOMPLEXITY, Hadron, Transverse momentum, B meson, Quarkonium, Bottom quark, Collider Detector at Fermilab

Abstract

This paper reports the measurement of the [ital B] meson and [ital b] quark cross sections through the decay chain [ital B][sup 0][r arrow][ital J]/[psi] K[sup *](892)[sup 0], [ital J]/[psi][r arrow][mu][sup +][mu][sup [minus]], [ital K][sup *](892)[sup 0][r arrow][ital K][sup +][pi][sup [minus]], using 4.3 pb[sup [minus]1] of data collected at the Collider Detector at Fermilab in [ital [bar p]p] collisions at [ital qrts]=1.8 TeV. We obtain [sigma][sub [ital B]]=1.5[plus minus]0.7(stat)[plus minus]0.6(syst) [mu]b for [ital B][sup 0] mesons with transverse momentum [ital P][sub [ital T]][gt]9.0 GeV/[ital c] and rapidity [vert bar][ital y][vert bar][lt]1.0. Using this result, we find [sigma][sub [ital b]]=3.7[plus minus]1.6(stat)[plus minus]1.5(syst) [mu]b for [ital b] quarks with [ital P][sub [ital T]][gt]11.5 GeV/[ital c] and rapidity [vert bar][ital y][vert bar][lt]1.0. The [ital b] quark cross section is compared to next-to-leading order QCD calculations and previous measurements.

Published

1994

47. Measurement of Drell-Yan electron and muon pair differential cross sections inp¯pcollisions ats=1.8TeV

Author

Robert M Harris, S. Bertolucci, A. Mukherjee, Weiya Zhang, J. P. Berge, M. Sheaff, A. Baden, P. Hurst, George Redlinger, Andrea Castro, C. Boswell, S. Mikamo, S. Miyashita, J. Wyss, K. Sliwa, M. Roach, S. Cihangir, R. B. Drucker, A. Dunn, W. C. Wester, F. Zetti, C. Hawk, M. Miller, Patrizia Azzi, D. Lucchesi, K. Biery, J. I. Lamoureux, S. Vejcik, Luca Stanco, C. Haber, Umesh Joshi, E. Kuns, T. Ino, T. Baumann, P. Hu, R. St. Denis, P. Auchincloss, Chris Wendt, D. G. Underwood, J. Cooper, R. M. Keup, S. H. Kim, W. Carithers, M. Dell'Orso, T. L. Watts, Y. Seiya, M. Cordelli, A. Hölscher, J. C. Yun, M. Takano, E. Kearns, F. Ptohos, W. J. Robertson, R. G. Wagner, N. Bacchetta, Jay Hauser, D. Benjamin, A. Sill, S. Bhadra, Yongsun Kim, Nikos Giokaris, E. Kovacs, S. Tkaczyk, M. Gold, Sebastian N. White, Catherine Newman-Holmes, P. F. Derwent, J. Skarha, G. Sganos, R. W. Kadel, C. Day, Stefano Belforte, R. Ely, Henrik Jeldtoft Jensen, Giorgio Chiarelli, N. S. Lockyer, A. G. Piacentino, T. Rodrigo, G. F. Sciacca, T. Rohaly, J. Tonnison, A. Etchegoyen, W. Badgett, William Trischuk, R. P. Johnson, X. Wu, M. Campbell, G. P. Yeh, D. Connor, J. N. Bellinger, Tony Liss, S. Zucchelli, D. Crane, T. Mimashi, M. Dickson, P. Giannetti, M. W. Bailey, S. A. Hauger, G. J. Feldman, L. Song, T. Fuess, R. Handler, T. Hessing, Y. Ye, R. Mattingly, D. N. Brown, L. A. Markosky, Doyeong Kim, J. Tseng, H. Keutelian, Steve Kuhlmann, L. E. Kirsch, T. J. Phillips, E. Pare, G. Punzi, B. L. Winer, M. Mishina, J. Hylen, A. Para, H. Wenzel, Y. Morita, S. Leone, Gordon Watts, W. Chinowsky, Fumihiko Ukegawa, H. S. Budd, Andrea Sansoni, Marina Cobal, D. Neuberger, P. Lukens, K. Yasuoka, R. E. Blair, K. Bloom, R. Carey, J. P. Marriner, R. Cashmore, J. D. Cunningham, G. Bellettini, G. W. Foster, Kevin Einsweiler, D. A. Kardelis, F. Cervelli, Wen Li, J. A.J. Matthews, S. Miscetti, S. Dell'Agnello, L. Ristori, P. Schlabach, S. B. Kim, A. Bodek, K. Chadwick, S. Tether, P. Limon, Shlomit Tarem, C. Nelson, V. Papadimitriou, B. Denby, R. C. Webb, W. K. Sakumoto, S. Geer, A. Roodman, J. D. Lewis, C. Campagnari, A. Bamberger, C. Grosso-Pilcher, S. Behrends, P. Kesten, R. Grindley, G. Sullivan, A. B. Wicklund, J. Wolinski, T. Meyer, T. Westhusing, A. Gauthier, James Bensinger, A. Spies, Andrew Beretvas, S. Eno, A. W. Booth, Kazuhiko Hara, M. Loreti, Kostantinos Kordas, R. Kephart, B. Hubbard, R. C. Walker, Kiminori Kondo, E. H. Low, Sally Seidel, P. Maas, B. A. Barnett, L. Keeble, Giorgio Apollinari, R. E. Hughes, R. L. Swartz, Marjorie Shapiro, F. Rimondi, G. Bauer, F. D. Snider, E. E. Schmidt, G. Houk, B. Flaugher, G. M. Grieco, K. L. Byrum, J. Gonzalez, F. Bedeschi, Yasuo Fukui, B. Harral, L. Pondrom, F. DeJongh, Nicola Turini, A. T. Laasanen, D. A. Smith, A. Byon-Wagner, H. Iso, Lawrence Nodulman, E. Buckley-Geer, G. Busetto, S. R. Hahn, Riccardo Paoletti, D. W. Gerdes, I. Karliner, P. Giromini, R. J. Hollebeek, E. Meschi, Sung Keun Park, J. E. Elias, R. Markeloff, D. Y. Wu, P. Sinervo, Andreas Warburton, A. Scribano, Teruki Kamon, Dario Bisello, C. P. Jessop, Y. Tsay, T. Song, M. Franklin, J. Siegrist, Hong Sj, S. Kanda, H. Grassmann, J. Rhoades, Craig Blocker, I. Nakano, R. Vidal, R. L. Wagner, K. Goulianos, G. W. Brandenburg, Henry J. Frisch, L. Pescara, J. C. Freeman, E. Wicklund, S. Ogawa, Aurore Savoy-Navarro, M. Binkley, S. Zhang, P. de Barbaro, A. Barbaro-Galtieri, L. Gladney, M. G. Albrow, K. Ragan, J. Huth, Kaori Maeshima, Alan Garfinkel, L. Demortier, P. McIntyre, James Proudfoot, M. J. Shochet, M. H. Schub, V. Bolognesi, A. Zanetti, M. Incagli, Konstanty Sumorok, D. Theriot, O. Schneider, J. T. Carroll, J. W. Chapman, J. S T Ng, H. H. Williams, Duncan Carlsmith, A. Stefanini, M. Spahn, M. Atac, Y. Cen, S. Segler, B. Farhat, A. Tollestrup, Roy F Schwitters, M. Krasberg, S. Moulding, C. B. Luchini, Fumio Abe, M. Frautschi, T. Devlin, Jose M. Benlloch, K. Takikawa, B. T. Huffman, N. Wainer, R. K. Plunkett, J. Mueller, M. Ninomiya, N. M. Shaw, J. Yoh, R. D. Sard, Paul Tipton, D. Dibitonto, M. Timko, D. Quarrie, D. Amidei, M. Yokoyama, M. Lindgren, M. Mariotti, S. Errede, L. Holloway, J. Patrick, P. Sphicas, F. Tartarelli, V. Scarpine, Virgil E Barnes, A. Caner, T. Muller, S. Lammel, A. Menzione, M. Mangano, J. Walsh, A. G. Clark, C. Anway-Wiese, G. Pauletta, M. Contreras, J. Konigsberg, Avraham Yagil, and L. F. Nakae

Subjects

Quantum chromodynamics, Physics, Nuclear physics, Particle physics, Muon, Pair production, Drell–Yan process, Interval (graph theory), Elementary particle, Parton, Lepton

Abstract

We measure the Drell-Yan differential cross section [ital d][sup 2][sigma]/[ital dM] d[ital y][vert bar][sub [vert bar][ital y][vert bar][lt]1] over the mass range 11[lt][ital M][lt]150 GeV/[ital c][sup 2] using dielectron and dimuon data from [ital [bar p]p] collisions at a center-of-mass energy of [radical][ital s] =1.8 TeV. Our results show the 1/[ital M][sup 3] dependence that is expected from the naive Drell-Yan model. In comparison to the predictions of recent QCD calculations we find our data favor those parton distribution functions with the largest quark contributions in the [ital x] interval 0.006 to 0.03.

Published

1994

48. First Direct Observation of Muon Antineutrino Disappearance

Author

J. Urheim, A. E. Kreymer, H. A. Rubin, Marvin L Marshak, Carlos Escobar, M. V. Diwan, G. J. Bock, R. K. Plunkett, J. A. Musser, W. P. Oliver, M. Bishai, P. Shanahan, D. Cherdack, A. Holin, R. Mehdiyev, D. J. Auty, W. H. Miller, Matthew L Strait, X. Qiu, J. R. Meier, N. Graf, P. Stamoulis, C. Andreopoulos, R. Ospanov, J. Ratchford, C. D. Moore, L. Loiacono, R. Toner, P. A. Rodrigues, Joao A B Coelho, G. Lefeuvre, P. Lucas, B. Rebel, Juan Pedro Ochoa-Ricoux, R. A. Gomes, M. Orchanian, R. C. Webb, T. Kafka, S. Childress, J. K. De Jong, T. Yang, K. Grzelak, J. A. Nowak, C. Rosenfeld, S. Phan-Budd, A. Sousa, D. Bogert, R. L. Talaga, L. Corwin, S. L. Mufson, H. R. Gallagher, P. Adamson, J. Ilic, N. E. Devenish, L. Whitehead, P. J. Litchfield, D. A. Harris, R. B. Patterson, M. Kordosky, D. S. Ayres, M. A. Thomson, S. M. S. Kasahara, D. Naples, J. K. Nelson, G. Tinti, N. Mayer, Stanley G. Wojcicki, J. J. Evans, Andrew Blake, Sacha E Kopp, R. Gran, P. Vahle, D. A. Jensen, C. Howcroft, S. Cavanaugh, D. J. Boehnlein, Karol Lang, G. Tzanakos, A. M. McGowan, G. Koizumi, R. Hatcher, Daniel P Cronin-Hennessy, A. C. Weber, M. D. Messier, R. Zwaska, N. Grant, Christopher G. White, M. V. Frohne, W. A. Mann, E. Tetteh-Lartey, P. Schreiner, T. C. Nicholls, Xian-Rong Huang, J. Schneps, I. Z. Danko, E. Falk, Brajesh C Choudhary, M. C. Sanchez, M. Dorman, G. F. Pearce, Maury Goodman, C. Backhouse, Gregory J Pawloski, Jorge G. Morfin, David Petyt, C. James, John C. Mitchell, N. Tagg, G.D. Barr, T. M. Raufer, S. R. Mishra, Juergen Thomas, D. E. Jaffe, P. Gouffon, J. Hylen, B. Viren, R. J. Nichol, Alec Habig, G. M. Irwin, S. J. Coleman, G. J. Feldman, J. M. Paley, Harvey B Newman, A. Himmel, Z. Isvan, L. Mualem, and J. Hartnell

Subjects

Physics, Particle physics, Antiparticle, Muon, Physics::Instrumentation and Detectors, General Physics and Astronomy, FOS: Physical sciences, NEUTRINO OSCILLATIONS, LEPTON CHARGE, MATTER, High Energy Physics - Experiment, Nuclear physics, High Energy Physics - Experiment (hep-ex), MINOS, Physics::Accelerator Physics, High Energy Physics::Experiment, Neutrino, Neutrino oscillation, Nucleon, Nuclear Experiment, Charged current, Lepton

Abstract

This letter reports the first direct observation of muon antineutrino disappearance. The MINOS experiment has taken data with an accelerator beam optimized for muon antineutrino production, accumulating an exposure of $1.71\times 10^{20}$ protons on target. In the Far Detector, 97 charged current muon antineutrino events are observed. The no-oscillation hypothesis predicts 156 events and is excluded at $6.3\sigma$. The best fit to oscillation yields $\Delta \bar{m}^{2}=(3.36^{+0.46}_{-0.40}\textrm{(stat.)}\pm0.06\textrm{(syst.)})\times 10^{-3}\,\eV^{2}$, $\sin^{2}(2\bar{\theta})=0.86^{+0.11}_{-0.12}\textrm{(stat.)}\pm0.01\textrm{(syst.)}$. The MINOS muon neutrino and muon antineutrino measurements are consistent at the 2.0% confidence level, assuming identical underlying oscillation parameters., Comment: Six pages, four figures. This version published by Physical Review Letters

Published

2011

49. Measurement of the underground atmospheric muon charge ratio using the MINOS Near Detector

Author

A. E. Kreymer, Marvin L Marshak, H. R. Gallagher, D. A. Harris, G. M. Irwin, J. Schneps, I. Z. Danko, V. A. Ryabov, M. V. Diwan, C. Backhouse, J. Reichenbacher, J. A. Nowak, G. J. Feldman, P. Schreiner, J. Ilic, Matthew L Strait, M. A. Thomson, R. Hatcher, D. Naples, P. Vahle, S. Cavanaugh, Karol Lang, Stanley G. Wojcicki, A. Himmel, Z. Isvan, J. Urheim, L. Mualem, N. Mayer, Gregory J Pawloski, S. J. Coleman, J. Hylen, John C. Mitchell, Joao A B Coelho, M. C. Goodman, G. Tzanakos, Xian-Rong Huang, Jorge G. Morfin, D. J. Auty, D. J. Boehnlein, C. James, T. H. Fields, J. M. Paley, G. Koizumi, J. A. Musser, G. J. Bock, Harvey B Newman, Sacha E Kopp, R. Gran, J. J. Evans, Philip Harris, M. Kordosky, P. Bhattarai, P. Shanahan, R. Mehdiyev, Warner A. Miller, T. Yang, A. Holin, D. Cronin-Hennessy, N. Tagg, G.D. Barr, R. J. Nichol, M. Bishai, Andrew Blake, R. Pittam, T. M. Raufer, D.S. Damiani, S. R. Mishra, D. G. Michael, M. Orchanian, R. C. Webb, M. V. Frohne, A. Sousa, P. Gouffon, Alec Habig, K. Grzelak, D. Bogert, G. Tinti, P. A. Rodrigues, Brajesh C Choudhary, Juergen Thomas, N. E. Devenish, R. Zwaska, C. Rosenfeld, G. Lefeuvre, R. B. Patterson, M. D. Messier, M. C. Sanchez, P. J. Litchfield, D. E. Jaffe, B. Viren, A. M. McGowan, T. Kafka, R. Toner, J. K. De Jong, B. Rebel, P. Adamson, L. Whitehead, M. Dorman, Christopher G. White, J. R. Meier, R. L. Talaga, N. Graf, Niki Saoulidou, G. F. Pearce, S. M. S. Kasahara, E. Falk, J. K. Nelson, A. C. Weber, D. A. Jensen, N. Grant, S. Budd, Z. Krahn, D. Cherdack, C. Andreopoulos, L. Loiacono, R. A. Gomes, S. Childress, J. Ratchford, C. D. Moore, Douglas Wright, L. Corwin, S. L. Mufson, P. Lucas, Carlos Escobar, R. K. Plunkett, William L. Barrett, X. Qiu, W. A. Mann, D. S. Ayres, H. A. Rubin, W. P. Oliver, and J. Hartnell

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Muon, Meson, Physics::Instrumentation and Detectors, Detector, FOS: Physical sciences, Cosmic ray, High Energy Physics - Experiment, Nuclear physics, Particle decay, High Energy Physics - Experiment (hep-ex), MINOS, High Energy Physics::Experiment, Astrophysics::Earth and Planetary Astrophysics, Nuclear Experiment, Lepton, Dimensionless quantity

Abstract

The magnetized MINOS Near Detector, at a depth of 225 meters of water equivalent (mwe), is used to measure the atmospheric muon charge ratio. The ratio of observed positive to negative atmospheric muon rates, using 301 days of data, is measured to be 1.266+/-0.001(stat.)+0.015/-0.014(syst.). This measurement is consistent with previous results from other shallow underground detectors, and is 0.108+/-0.019(stat. + syst.) lower than the measurement at the functionally identical MINOS Far Detector at a depth of 2070 mwe. This increase in charge ratio as a function of depth is consistent with an increase in the fraction of muons arising from kaon decay for increasing muon surface energies., 11 pages, 8 figures submitted to Physical Review D

Published

2011

50. Search for first-generation leptoquarks inp¯pcollisions ats=1.8TeV

Author

M. Timko, M. Gold, S. Segler, B. T. Huffman, M. Sheaff, A. Baden, R. K. Plunkett, M. Ninomiya, F. Ptohos, W. J. Robertson, S. A. Hauger, Shlomit Tarem, R. W. Kadel, G. Piacentino, R. Vidal, A. Mukherjee, P. Hurst, A. Bamberger, B. A. Barnett, L. Keeble, Giorgio Apollinari, R. C. Walker, Teruki Kamon, S. R. Hahn, I. Karliner, B. Denby, Konstanty Sumorok, Jay Hauser, George Redlinger, S. Mikamo, A. Etchegoyen, R. P. Johnson, P. Sphicas, C. Anway-Wiese, D. Benjamin, H. Wenzel, A. Sill, Craig Blocker, J. I. Lamoureux, R. C. Webb, J. Wyss, M. Campbell, D. A. Smith, P. Giannetti, Kaori Maeshima, M. Miller, Patrizia Azzi, Marina Cobal, F. Tartarelli, V. Scarpine, M. W. Bailey, I. Nakano, Virgil E Barnes, T. Hessing, B. Hubbard, Peter McIntyre, Doyeong Kim, R. Handler, G. Pauletta, M. Contreras, J. D. Cunningham, Sally Seidel, Y. Tsay, M. Spahn, G. Bellettini, R. Ely, S. Vejcik, A. Caner, H. H. Williams, S. Eno, Y. Seiya, Lawrence Nodulman, S. Dell'Agnello, F. Zetti, C. Hawk, T. Westhusing, A. W. Booth, A. Stefanini, D. Connor, J. Konigsberg, D. A. Kardelis, Stefano Belforte, J. N. Bellinger, S. Lammel, R. Markeloff, A. Menzione, Avraham Yagil, W. Carithers, C. P. Jessop, S. Kanda, H. Grassmann, J. Rhoades, E. Kuns, S. B. Kim, Henrik Jeldtoft Jensen, M. Atac, M. Roach, J. Mueller, N. Bacchetta, O. Schneider, S. Miscetti, J. Huth, C. Haber, T. L. Watts, Alan Garfinkel, Dario Bisello, D. Lucchesi, K. Biery, R. L. Wagner, M. Krasberg, K. Goulianos, S. Tkaczyk, L. Ristori, F. DeJongh, N. M. Shaw, T. Ino, R. Grindley, J. A.J. Matthews, J. Wolinski, T. Meyer, S. Patrick, Robert M Harris, M. H. Schub, A. Hölscher, L. F. Nakae, Chris Wendt, B. Farhat, L. A. Markosky, Roy F Schwitters, P. de Barbaro, G. P. Yeh, M. Takano, E. Kearns, E. Meschi, Sung Keun Park, F. Rimondi, T. Rohaly, S. Moulding, J. Gonzalez, F. Bedeschi, B. Harral, S. Zhang, Andrea Sansoni, C. B. Luchini, M. Frautschi, G. Houk, Catherine Newman-Holmes, P. F. Derwent, G. Bauer, Andrea Castro, F. D. Snider, J. Yoh, Fumio Abe, K. Ragan, C. Campagnari, Y. Ye, Tony Liss, S. Bhadra, R. Mattingly, D. N. Brown, D. Crane, T. Baumann, M. Yokoyama, B. Flaugher, E. Pare, G. Punzi, B. L. Winer, K. Yasuoka, G. M. Grieco, M. Loreti, R. Kephart, K. Takikawa, P. Hu, R. Carey, N. Wainer, T. Mimashi, M. Dickson, J. Hylen, A. Para, A. Barbaro-Galtieri, L. Gladney, T. J. Phillips, R. St. Denis, M. Cordelli, L. Stanco, R. G. Wagner, G. W. Foster, M. Lindgren, M. Mariotti, M. Mangano, D. W. Gerdes, J. Walsh, S. Leone, L. Demortier, V. Bolognesi, J. P. Marriner, W. Zhang, M. J. Shochet, Y. Morita, G. Sganos, A. Scribano, J. D. Lewis, Nicola Turini, A. T. Laasanen, A. Zanetti, H. S. Budd, J. Tonnison, A. G. Clark, V. Papadimitriou, R. Cashmore, S. Miyashita, W. C. Wester, James Proudfoot, L. Holloway, Andrew Beretvas, S. Bertolucci, G. J. Feldman, J. T. Carroll, Kostantinos Kordas, J. Tseng, E. H. Low, M. Binkley, R. E. Hughes, J. P. Berge, C. Boswell, Kevin Einsweiler, M. G. Albrow, J. W. Chapman, J. S T Ng, W. Chinowsky, R. E. Blair, D. G. Underwood, S. Tether, R. B. Drucker, P. Lukens, P. Auchincloss, W. K. Sakumoto, S. Geer, G. Sullivan, C. Grosso-Pilcher, T. Song, Aurore Savoy-Navarro, E. Kovacs, N. S. Lockyer, J. Skarha, William Trischuk, F. Cervelli, Wen Li, P. Schlabach, L. Pescara, C. Nelson, P. Kesten, Kiminori Kondo, A. Byon-Wagner, H. Iso, R. J. Hollebeek, J. Siegrist, Hong Sj, M. Dell'Orso, C. Day, G. F. Sciacca, W. Badgett, L. Song, T. Fuess, L. E. Kirsch, D. Amidei, R. L. Swartz, Marjorie Shapiro, E. Buckley-Geer, Riccardo Paoletti, S. Errede, P. Sinervo, Henry J. Frisch, T. Muller, M. Franklin, J. C. Freeman, S. Cihangir, R. D. Sard, Paul Tipton, J. C. Yun, Yongsun Kim, Nikos Giokaris, Sebastian N. White, D. Dibitonto, Giorgio Chiarelli, K. L. Byrum, G. Busetto, P. Giromini, T. Rodrigo, D. Quarrie, Gordon Watts, K. Chadwick, P. Limon, D. Neuberger, A. Spies, L. Pondrom, E. Wicklund, J. E. Elias, M. Mishina, Fumihiko Ukegawa, S. Behrends, A. B. Wicklund, E. E. Schmidt, D. Y. Wu, G. W. Brandenburg, S. Ogawa, S. Zucchelli, M. Incagli, H. Keutelian, D. Theriot, Steve Kuhlmann, Duncan Carlsmith, A. Bodek, Y. Cen, A. Tollestrup, Umesh Joshi, J. Cooper, T. Devlin, R. M. Keup, S. H. Kim, Jose M. Benlloch, X. Wu, K. Sliwa, A. Roodman, A. Gauthier, James Bensinger, Kazuhiko Hara, P. Maas, and Yasuo Fukui

Subjects

Physics, Particle decay, High energy, Particle physics, Coupling strength, Branching fraction, Signal region, Leptoquark, Lambda, First generation

Abstract

We present results of a search for a first-generation leptoquark [ital scrS][sub 1] in [ital [bar p]p] collisions at [radical][ital s] =1.8 TeV at the Fermilab Tevatron. Using 4.05 pb[sup [minus]1] of data collected during the 1988--1989 CDF run, we have searched for evidence of [ital scrS][sub 1][ital scr[bar S]1] production assuming that each leptoquark decays to an electron+quark pair with a branching ratio [beta]. Three events with two high energy electrons and two high energy jets were found, but are consistent with [ital Z][sup 0] decay. No events were found in the signal region. Assuming a short lived scalar leptoquark with Yukawa coupling strength [lambda][approx gt]2[times]10[sup [minus]7], we exclude [sigma][beta][sup 2][gt]55(4.0) pb at 95% C.L. for [ital M][sub [ital s][ital c][ital r][ital S]]=45(125) GeV/[ital c][sup 2]. Using a Monte Carlo prediction for [sigma]([ital [bar p]p][r arrow][ital scrS][sub 1][ital scr[bar S]1]+[ital X]), we exclude [ital M][sub [ital s][ital c][ital r][ital S]][lt]113(80) GeV/[ital c][sup 2] for [beta]=100(50)%.

Published

1993